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WinOF VPI for Windows User Manual Rev 4.40 Last Updated. July 09, 2013 www.mellanox.com Rev 4.40 NOTE: THIS HARDWARE, SOFTWARE OR TEST SUITE PRODUCT (“PRODUCT(S)”) AND ITS RELATED DOCUMENTATION ARE PROVIDED BY MELLANOX TECHNOLOGIES “AS-IS” WITH ALL FAULTS OF ANY KIND AND SOLELY FOR THE PURPOSE OF AIDING THE CUSTOMER IN TESTING APPLICATIONS THAT USE THE PRODUCTS IN DESIGNATED SOLUTIONS. THE CUSTOMER'S MANUFACTURING TEST ENVIRONMENT HAS NOT MET THE STANDARDS SET BY MELLANOX TECHNOLOGIES TO FULLY QUALIFY THE PRODUCTO(S) AND/OR THE SYSTEM USING IT. THEREFORE, MELLANOX TECHNOLOGIES CANNOT AND DOES NOT GUARANTEE OR WARRANT THAT THE PRODUCTS WILL OPERATE WITH THE HIGHEST QUALITY. ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT ARE DISCLAIMED. IN NO EVENT SHALL MELLANOX BE LIABLE TO CUSTOMER OR ANY THIRD PARTIES FOR ANY DIRECT, INDIRECT, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES OF ANY KIND (INCLUDING, BUT NOT LIMITED TO, PAYMENT FOR PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY FROM THE USE OF THE PRODUCT(S) AND RELATED DOCUMENTATION EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Mellanox Technologies 350 Oakmead Parkway Suite 100 Sunnyvale, CA 94085 U.S.A. www.mellanox.com Tel: (408) 970-3400 Fax: (408) 970-3403 Mellanox Technologies, Ltd. Beit Mellanox PO Box 586 Yokneam 20692 Israel www.mellanox.com Tel: +972 (0)74 723 7200 Fax: +972 (0)4 959 3245 © Copyright 2013. Mellanox Technologies. All Rights Reserved. Mellanox®, Mellanox logo, BridgeX®, ConnectX®, CORE-Direct®, InfiniBridge®, InfiniHost®, InfiniScale®, MLNX-OS®, PhyX®, SwitchX®, UFM®, Virtual Protocol Interconnect® and Voltaire® are registered trademarks of Mellanox Technologies, Ltd. Connect-IB™, FabricIT™, Mellanox Open Ethernet™, Mellanox Virtual Modular Switch™, MetroX™, MetroDX™, ScalableHPC™, Unbreakable-Link™ are trademarks of Mellanox Technologies, Ltd. All other trademarks are property of their respective owners. 2 Mellanox Technologies Document Number: 3280 WinOF VPI for Windows User Manual Rev 4.40 Table of Contents Document Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 About this Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Scope . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Documentation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Common Abbreviations and Acronyms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Chapter 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.1 Mellanox VPI Package Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Chapter 2 Firmware Upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 2.1 2.2 2.3 Downloading Mellanox Firmware Tools. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Downloading Firmware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Upgrading Firmware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 2.3.1 Upgrading Firmware Manually. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Chapter 3 Driver Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 3.1 3.2 3.3 3.4 Hyper-V with VMQ. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Header Data Split. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Receive Side Scaling (RSS). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Port Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 15 15 16 3.4.1 Auto Sensing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 3.4.2 Port Protocol Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 3.5 Load Balancing, Fail-Over (LBFO) and VLAN . . . . . . . . . . . . . . . . . . . . . . . . . 19 3.5.1 3.5.2 3.5.3 3.5.4 3.6 Adapter Teaming. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Creating a Load Balancing and Fail-Over (LBFO) Bundle . . . . . . . . . . . . . . . . . Creating a Port VLAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Removing a Port VLAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 19 22 25 RDMA over Converged Ethernet (RoCE). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 3.6.1 3.6.2 3.6.3 3.6.4 RoCE Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RoCE Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuring SwitchX® Based Switch System . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuring Router (PFC only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 26 28 29 Chapter 4 Deploying Windows Server 2012 with SMB Direct . . . . . . . . . . . . . . . . . . . 30 4.1 4.2 4.3 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 Hardware and Software Prerequisites . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 SMB Configuration Verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 4.3.1 Verifying SMB Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 4.3.2 Verifying SMB Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 4.4 Verifying SMB Events that Confirm RDMA Connection . . . . . . . . . . . . . . . . . 31 Chapter 5 Driver Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 5.1 Configuring the InfiniBand Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 5.1.1 Modifying IPoIB Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 Mellanox Technologies 3 WinOF VPI for Windows User Manual Rev 4.40 5.1.2 Displaying Adapter Related Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 5.2 Configuring the Ethernet Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Chapter 6 Performance Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 6.1 General Performance Optimization and Tuning . . . . . . . . . . . . . . . . . . . . . . . . . 37 6.1.1 6.1.2 6.1.3 6.1.4 6.2 Registry Tuning. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Enable RSS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tuning the IPoIB Network Adapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tuning the Ethernet Network Adapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 37 37 38 Application Specific Optimization and Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . 43 6.2.1 Ethernet Performance Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 6.2.2 IPoIB Performance Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 6.3 6.4 Tunable Performance Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Adapter Proprietary Performance Counters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 6.4.1 Supported Standard Performance Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 Chapter 7 OpenSM - Subnet Manager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52 Chapter 8 InfiniBand Fabric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 8.1 8.2 8.3 Network Direct Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 part_man - Virtual IPoIB Port Creation Utility . . . . . . . . . . . . . . . . . . . . . . . . . . 53 InfiniBand Fabric Diagnostic Utilities. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 8.3.1 8.3.2 8.3.3 8.3.4 8.3.5 8.3.6 8.3.7 8.3.8 8.3.9 8.3.10 8.3.11 8.3.12 8.3.13 8.3.14 8.3.15 8.3.16 8.3.17 8.3.18 8.3.19 8.3.20 8.3.21 8.3.22 8.4 Utilities Usage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibdiagnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibportstate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibroute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . smpquery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . perfquery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibping. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibnetdiscover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibtracert . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . sminfo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibclearerrors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibstat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vstat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . osmtest. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibaddr. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibcacheedit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iblinkinfo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibqueryerrors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ibsysstat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . perfquery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . saquery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . smpdump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54 56 58 61 63 67 70 71 75 76 78 78 79 79 82 84 85 86 88 89 90 92 InfiniBand Fabric Performance Utilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94 8.4.1 ib_read_bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94 8.4.2 ib_read_lat. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 8.4.3 ib_send_bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96 Mellanox Technologies 4 WinOF VPI for Windows User Manual 8.4.4 8.4.5 8.4.6 8.4.7 8.4.8 8.4.9 8.4.10 8.4.11 8.4.12 8.4.13 8.4.14 8.4.15 8.4.16 8.4.17 Rev 4.40 ib_send_lat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 ib_write_bw. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 ib_write_lat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99 ibv_read_bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 ibv_read_lat. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101 ibv_send_bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102 ibv_send_lat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104 ibv_write_bw. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105 ibv_write_lat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 nd_write_bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108 nd_write_lat. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109 nd_read_bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110 nd_read_lat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 NTttcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112 Chapter 9 Software Development Kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114 Chapter 10 Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115 10.1 InfiniBand Troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115 10.2 Ethernet Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115 10.3 Performance Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 117 Chapter 11 Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 Mellanox Technologies 5 WinOF VPI for Windows User Manual Rev 4.40 List of Tables Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 Table 11 Table 12 Table 13 Table 14 Table 15 Table 16 Table 17 Table 18 Table 19 Table 20 Table 21 Table 22 Table 23 Table 24 Table 25 Table 26 Table 27 Table 28 Table 29 Table 30 Table 31 Table 32 Table 33 Table 34 Table 35 Table 36 Table 37 Table 38 Table 39 Table 40 Table 41 Table 42 Table 43 Document Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Documentation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Abbreviations and Acronyms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Registry Keys Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Mellanox Adapter Traffic Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 Mellanox Adapter Diagnostics Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 Mellanox QoS Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 ibdiagnet Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 ibdiagnet Output Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 ibportstate Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 ibroute Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 smpquery Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 perfquery Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 ibping Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 ibnetdiscover Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 ibtracert Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 sminfo Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 ibclearerrors Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78 ibstat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78 vstat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79 osmtest Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80 ibaddr Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 ibcacheedit Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 iblinkinfo Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 ibqueryerrors Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 ibsysstat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88 saquery Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 smpdump Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93 ib_read_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 ib_read_lat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 ib_send_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96 ib_send_lat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 ib_write_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 ib_write_lat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99 ibv_read_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 ibv_read_lat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101 ibv_send_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103 ibv_send_lat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104 ibv_write_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106 ibv_write_lat Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 nd_write_bw Flags and Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108 nd_write_lat Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109 nd_read_bw Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110 Mellanox Technologies 6 WinOF VPI for Windows User Manual Table 44 Table 45 Rev 4.40 nd_read_lat Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 NTttcp Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112 Mellanox Technologies 7 WinOF VPI for Windows User Manual Rev 4.40 Document Revision History Table 1 - Document Revision History Document Revision Rev 4.40 Date November 07, 2013 Changes Updated the following sections: • Section 3.6.2.2, “Configuring • • July 09, 2013 Windows Host”, on page 26 Section 7, “OpenSM - Subnet Manager”, on page 52 Section 8.4.17.1, “NTttcp Synopsys”, on page 111 Updated Section 7, “OpenSM - Subnet Manager”, on page 52 June 10, 2013 Updated the following sections: • Section 2.1, “Downloading Mellanox Firmware Tools”, on page 13 • Section 8, “InfiniBand Fabric”, on page 53 • Section 10, “Troubleshooting”, on page 115 • Section 11, “Documentation”, on page 119 • Section , “Options”, on page 40 Added the following sections: • “perf_tuning”Appendix ,“Synopsys,” on page 40 • Section , “”, on page 14 • Section 3.6.2, “RoCE Configuration”, on page 26 • Section 6.4, “Adapter Proprietary Performance Counters”, on page 46 Rev 4.2 October 20, 2012 Added the following sections: Section 4, “Deploying Windows Server 2012 with SMB Direct”, on page 30, and its subsections • Section 3.2, “Header Data Split”, on page 15 • Section 8.2, “part_man - Virtual IPoIB Port Creation Utility”, on page 53 Updated Section 6, “Performance Tuning”, on page 37 • Rev 3.2.0 July 23, 2012 • No changes Rev 3.1.0 May 21, 2012 • • • • • • Added section Tuning the IPoIB Network Adapter Added section Tuning the Ethernet Network Adapter Added section Performance tuning tool application Removed section Tuning the Network Adapter Removed section part_man Removed section ibdiagnet Mellanox Technologies 8 WinOF VPI for Windows User Manual Rev 4.40 Table 1 - Document Revision History Document Revision Rev 3.0.0 Date February 08, 2012 Changes • • • • • • • • • • • • • • • • Added section RDMA over Converged Ethernet (RoCE) and its subsections Added section Hyper-V with VMQ Added section Network Driver Interface Specification (NDIS) Added section Header Data Split Added section Auto Sensing Added section Adapter Teaming Added section Port Protocol Configuration Added section Advanced Configuration for InfiniBand Driver Added section Advanced Configuration for Ethernet Driver Added section Updated section Tunable Performance Parameters Added section Merged Ethernet and InfiniBand features sections Removed section Sockets Direct Protocol and its subsections Removed section Winsock Direct and Protocol and its subsections Removed section Added ConnectX®-3 support Removed section IPoIB Drivers Overview Removed section Booting Windows from an iSCSI Target Rev 2.1.3 January 28. 2011 Complete restructure Rev 2.1.2 October 10, 2010 • • • • Removed section Debug Options. Updated Section 3, “Uninstalling Mellanox VPI Driver,” on page 11 Added Section 6, “InfiniBand Fabric,” on page 38 and its subsections Added Section 6.3, “InfiniBand Fabric Performance Utilities,” on page 71 and its subsections Rev 2.1.1.1 July 14, 2010 Removed all references of InfiniHost® adapter since it is not supported starting with WinOF VPI v2.1.1 Rev 2.1.1 May 2010 First release Mellanox Technologies 9 WinOF VPI for Windows User Manual Rev 4.40 About this Manual Scope The document describes WinOF Rev 4.40 features, performance, InfiniBand diagnostic, tools content and configuration. Additionally, this document provides information on various performance tools supplied with this version. Intended Audience This manual is intended for system administrators responsible for the installation, configuration, management and maintenance of the software and hardware of VPI (InfiniBand, Ethernet) adapter cards. It is also intended for application developers. Documentation Conventions Table 2 - Documentation Conventions Description Convention Example File names file.extension Directory names directory Commands and their parameters command param1 Required item <> Optional item [ ] Mutually exclusive parameters { p1, p2, p3 } or {p1 | p2 | p3} Optional mutually exclusive parameters [ p1 | p2 | p3 ] Variables for which users supply specific values Italic font enable Emphasized words Italic font These are emphasized words mts3610-1 > show hosts Note <text> This is a note.. Warning <text> May result in system instability. Mellanox Technologies 10 WinOF VPI for Windows User Manual Rev 4.40 Common Abbreviations and Acronyms Table 3 - Abbreviations and Acronyms Abbreviation / Acronym Whole Word / Description B (Capital) ‘B’ is used to indicate size in bytes or multiples of bytes (e.g., 1KB = 1024 bytes, and 1MB = 1048576 bytes) b (Small) ‘b’ is used to indicate size in bits or multiples of bits (e.g., 1Kb = 1024 bits) FW Firmware HCA Host Channel Adapter HW Hardware IB InfiniBand LSB Least significant byte lsb Least significant bit MSB Most significant byte msb Most significant bit NIC Network Interface Card SW Software VPI Virtual Protocol Interconnect IPoIB IP over InfiniBand PFC Priority Flow Control PR Path Record RDS Reliable Datagram Sockets RoCE RDMA over Converged Ethernet SL Service Level MPI Message Passing Interface EoIB Ethernet over Infiniband QoS Quality of Service ULP Upper Level Protocol VL Virtual Lane Mellanox Technologies 11 WinOF VPI for Windows User Manual 1 Rev 4.40 Introduction This User Manual addresses the Mellanox WinOF driver Rev 4.40 package distributed for: • Windows Server 2012 (64 bit only) • Windows Server 2008 R2 (64 bit only) Mellanox WinOF is composed of several software modules that contain an InfiniBand and Ethernet driver. The Mellanox WinOF driver supports Infiniband and 40/10GB Ethernet. The port type is determined upon boot based on card’s capability and user setting. 1.1 Mellanox VPI Package Contents The Mellanox OFED for Windows (WinOF) package contains the following components: • Core and ULPs • InfiniBand network adapter cards low-level drivers (mlx4) • InfiniBand Access Layer (IBAL) • Ethernet driver (ETH) • IP over InfiniBand (IPoIB) • Upper Layer Protocols (ULPs): • NetworkDirect (ND) • Utilities • SW Development Kit (SDK) • Documentation Mellanox Technologies 12 WinOF VPI for Windows User Manual 2 Rev 4.40 Firmware Upgrade The adapter card may not have been shipped with the latest firmware version. The section below describes how to update firmware. 2.1 Downloading Mellanox Firmware Tools Step 1. Download Mellanox Firmware Tools Go to: http://www.mellanox.com > Products > Firmware Tools. The tools’ package to download is "MFT Software for Windows_x64" for x64 architecture. Step 2. Install and Run WinMFT. To install the WinMFT package, double click the MSI package or run it from the command prompt. Installing the WinMFT package from the command line requires administrator privileges. Example: PS $ msiexec.exe /i WinMFT_x64_3_0_0_17.msi To check the device status: Step 1. Start/Stop mst. PS $ mst start OR PS $ mst stop Step 2. Check the device’s status. PS $ mst status If no installation problems occur, the status command should produce the following output: PS $ mt4099_pciconf0 PS $ mt4099_pci_cr0 Mellanox Technologies 13 WinOF VPI for Windows User Manual 2.2 Rev 4.40 Downloading Firmware To identify your adapter card, perform the following the steps: Step 1. Extract the PSID. Run “vstat”. Step 2. Search for the latest firmware using the PSID from the step above. Go to: http://www.mellanox.com > Support > Support Downloader, 2.3 Upgrading Firmware Firmware can be upgraded either manually or automatically as described in the sections below. 2.3.1 Upgrading Firmware Manually To upgrade firmware manually: PS $ flint -d mt<device id>_pci_cr0 -i <image_name.bin> burn Example: PS $ flint -d mt4099_pci_cr0 -i fw-ConnectX3-rel-2_11_0500-MCX354A-FCA_A1.bin burn For additional details, please check the MFT user manual under: http://www.mellanox.com > Products > Firmware Tools Mellanox Technologies 14 WinOF VPI for Windows User Manual 3 Rev 4.40 Driver Features The Mellanox VPI WinOF driver release introduces the following capabilities: • One or two ports • Up to 16 Rx queues per port • Rx steering mode (RSS) • Hardware Tx/Rx checksum calculation • Large Send Offload (i.e., TCP Segmentation Offload) • Hardware multicast filtering • Adaptive interrupt moderation • MSI-X support • Auto Sensing • RoCE Ethernet Only: • HW VLAN filtering • Header Data Split For the complete list of Ethernet and InfiniBand Known Issues and Limitations, see MLNX_WinVPI_ReleaseNotes.txt. 3.1 Hyper-V with VMQ Mellanox WinOF Rev 4.40 includes a Virtual Machine Queue (VMQ) interface to support Microsoft Hyper-V network performance improvements and security enhancement. VMQ interface supports: 3.2 • Classification of received packets by using the destination MAC address to route the packets to different receive queues • NIC ability to use DMA to transfer packets directly to a Hyper-V child-partition's shared memory • Scaling to multiple processors, by processing packets for different virtual machines on different processors. Header Data Split The header-data split feature improves network performance by splitting the headers and data in received Ethernet frames into separate buffers. The feature is disabled by default and can be enabled in the Advanced tab (Performance Options) from the Properties window. For further information, please refer to the MSDN library: http://msdn.microsoft.com/en-us/library/windows/hardware/ff553723(v=VS.85).aspx 3.3 Receive Side Scaling (RSS) Mellanox WinOF Rev 4.40 IPoIB and Ethernet drivers use NDIS 6.30 new RSS capabilities. The main changes are: Mellanox Technologies 15 WinOF VPI for Windows User Manual Rev 4.40 • Supports unlimited number of processors (previously 64) • Individual network adapter RSS configuration usage RSS capabilities can be set per individual adapters as well as global. To do so, set the registry keys listed below: Table 4 - Registry Keys Setting Sub-key 3.4 Description HKLM\SYSTEM\CurrentControlSet\Control\Class\{4d36e972-e325-11ce-bfc108002be10318}\<nn>\*MaxRSSProcessors Maximum number of CPUs allotted. Sets the desired maximum number of processors for each interface. The number can be different for each interface. Note: Restart the network adapter when you change this registry key. HKLM\SYSTEM\CurrentControlSet\Control\Class\{4d36e972-e325-11ce-bfc108002be10318}\<nn>\*RssBaseProcNumber Base CPU number. Sets the desired base CPU number for each interface. The number can be different for each interface. This allows partitioning of CPUs across network adapters. Note: Restart the network adapter when you change this registry key. HKLM\SYSTEM\CurrentControlSet\Control\Class\{4d36e972-e325-11ce-bfc108002be10318}\<nn>\*NumaNodeID NUMA node affinitization HKLM\SYSTEM\CurrentControlSet\Control\Class\{4d36e972-e325-11ce-bfc108002be10318}\<nn>\*RssBaseProcGroup Sets the RSS base processor group for systems with more than 64 processors. Port Configuration After WinOF OFED VPI installation, it is possible to modify the network protocol that runs on each port of VPI adapter cards. Each port can be set to run as InfiniBand, Ethernet or Auto Sensing. 3.4.1 Auto Sensing Auto Sensing enables the NIC to automatically sense the link type (InfiniBand or Ethernet) based on the cable connected to the port and load the appropriate driver stack (InfiniBand or Ethernet). Auto Sensing is performed only when rebooting the machine or after disabling/enabling the mlx4_bus interface from the Device Manager. Hence, if you replace cables during the runtime, the NIC will not perform Auto Sensing. For further information on how to configure it, please refer to Section 3.4.2, “Port Protocol Configuration”, on page 17. Mellanox Technologies 16 WinOF VPI for Windows User Manual 3.4.2 Rev 4.40 Port Protocol Configuration Step 1. Display the Device Manager and expand “System devices”. Step 2. Right-click on the Mellanox ConnectX Ethernet network adapter and left-click Properties. Select the Port Protocol tab from the Properties window. The “Port Protocol” tab is displayed only if the NIC is a VPI (IB and ETH). Mellanox Technologies 17 WinOF VPI for Windows User Manual Rev 4.40 The figure below is an example of the displayed Port Protocol window for a dual port VPI adapter card. Step 3. In this step, you can perform the following functions: • If you choose the HW Defaults option, the port protocols will be determined according to the NIC’s hardware default values. • Choose the desired port protocol for the available port(s). If you choose IB or ETH, both ends of the connection must be of the same type (IB or ETH). • Enable Auto Sensing by checking the AUTO checkbox. If the NIC does not support Auto Sensing, the AUTO option will be grayed out. If you choose AUTO, the current setting will indicate the actual port settings: IB or ETH. Mellanox Technologies 18 WinOF VPI for Windows User Manual 3.5 Rev 4.40 Load Balancing, Fail-Over (LBFO) and VLAN Windows 2012 Microsoft supports load balancing as part of the operating system. Please refer to Microsoft document “Windows 2012 Link Teaming”. For other Operating Systems such as: Windows 2008 R2, and Windows Server 2012, please refer to the sections below. 3.5.1 Adapter Teaming Adapter teaming can group a group of ports inside a network adapters or a number of physical network adapters into virtual adapters that provide the fault-tolerance and load-balancing functions. Depending on the teaming mode, one or more interfaces can be active. The non active interfaces in a team are in a standby mode and will take over the network traffic in the event of a link failure in the active interfaces. All of the active interfaces in a team participate in load-balancing operations by sending and receiving a portion of the total network traffic. 3.5.1.1 Teaming (Bundle) Modes 1. Fault Tolerance Provides automatic redundancy for the server’s network connection. If the primary adapter fails, the secondary adapter (currently in a standby mode) takes over. Fault Tolerance is the basis for each of the following teaming types and is inherent in all teaming modes. 2. Switch Fault Tolerance Provides a failover relationship between two adapters when each adapter is connected to a separate switch. 3. Send Load Balancing Provides load balancing of transmit traffic and fault tolerance. The load balancing is perform only on the send port. 4. Load Balancing (Send & Receive) Provides load balancing of transmit and receive traffic and fault tolerance. The load balancing splits the transmit and receive traffic statically among the team adapters (without changing the base of the traffic loading) based on the source/destination MAC and IP addresses. 5. Adaptive Load Balancing The same functionality as Load Balancing (Send & Receive). In case of traffic load in one of the adapters, the load balancing channels the traffic between the other team adapter. 6. Dynamic Link Aggregation (802.3ad) Provides dynamic link aggregation allowing creation of one or more channel groups using same speed or mixed-speed server adapters. 7. Static Link Aggregation (802.3ad) Provides increased transmission and reception throughput in a team comprised of two to eight adapter ports through static configuration. If the switch connected to the HCA supports 802.3ad the recommended setting is teaming mode 6. 3.5.2 Creating a Load Balancing and Fail-Over (LBFO) Bundle LBFO is used to balance the workload of packet transfers by distributing the workload over a bundle of network instances and to set a secondary network instance to take over packet indications and information requests if the primary network instance fails. The following steps describe the process of creating an LBFO bundle. Mellanox Technologies 19 WinOF VPI for Windows User Manual Rev 4.40 Step 1. Display the Device Manager. Step 2. Right-click a Mellanox ConnectX 10Gb Ethernet adapter (under “Network adapters” list) and left click Properties. Select the LBFO tab from the Properties window. It is not recommended to open the Properties window of more than one adapter simultaneously. The LBFO dialog enables creating, modifying or removing a bundle. Only Mellanox Technologies adapters can be part of the LBFO. To create a new bundle, perform the following Step 1. Click Create. Step 2. Enter a (unique) bundle name. Step 3. Select a bundle type. Step 4. Select the adapters to be included in the bundle (that have not been associated with a VLAN). Mellanox Technologies 20 WinOF VPI for Windows User Manual Rev 4.40 Step 5. [Optional] Select Primary Adapter. An active-passive scenario used for data transfer of link disconnecting. In such scenario, the system uses one of the other interfaces. When the primary link comes up, the LBFO interface returns to transfer data using the primary interface. If the primary adapter is not selected, the primary interface is selected randomly. Step 6. [Optional] Failback to Primary Step 7. Check the checkbox. Mellanox Technologies 21 WinOF VPI for Windows User Manual Rev 4.40 The newly created virtual Mellanox adapter representing the bundle will be displayed by the Device Manager under “Network adapters” in the following format (see the figure below): Mellanox Virtual Miniport Driver - Team <bundle_name> To modify an existing bundle, perform the following: a. Select the desired bundle and click Modify b. Modify the bundle name, its type, and/or the participating adapters in the bundle c. Click the Commit button To remove an existing bundle, select the desired bundle and click Remove. You will be prompted to approve this action. Notes on this step: a. Each adapter that participates in a bundle has two properties: • Status: Connected/Disconnected/Disabled • Role: Active or Backup b. Each network adapter that is added or removed from a bundle gets refreshed (i.e. disabled then enabled). This may cause a temporary loss of connection to the adapter. c. In case a bundle loses one or more network adapters by a “create” or “modify” operation, the remaining adapters in the bundle are automatically notified of the change. 3.5.3 Creating a Port VLAN You can create a Port VLAN either on a physical Mellanox ConnectX® EN adapter or a virtual bundle (team). The following steps describe how to create a port VLAN. Mellanox Technologies 22 WinOF VPI for Windows User Manual Step 1. Rev 4.40 Display the Device Manager. Mellanox Technologies 23 WinOF VPI for Windows User Manual Step 2. Rev 4.40 Right-click a Mellanox network adapter (under “Network adapters” list) and left-click Properties. Select the VLAN tab from the Properties sheet. If a physical adapter has been added to a bundle (team), the VLAN tab will not be displayed. Step 3. Click New to open a VLAN dialog window. Enter the desired VLAN Name and VLAN ID, and select the VLAN Priority. Mellanox Technologies 24 WinOF VPI for Windows User Manual Rev 4.40 After installing the first virtual adapter (VLAN) on a specific port, the port becomes disabled. This means that it is not possible to bind to this port until all the virtual adapters associated with it are removed. When using a VLAN, the network address is configured using the VLAN ID. Therefore, the VLAN ID on both ends of the connection must be the same. Step 4. Verify the new VLAN(s) by opening the Device Manager window or the Network Connections window. The newly created VLAN will be displayed in the following format. Mellanox Virtual Miniport Driver - VLAN <name> 3.5.4 Removing a Port VLAN To remove a port VLAN, perform the following steps: Step 1. In the Device Manager window, right-click the network adapter from which the port VLAN was created. Step 2. Left-click Properties. Step 3. Select the VLAN tab from the Properties sheet. Mellanox Technologies 25 WinOF VPI for Windows User Manual Step 4. Select the VLAN to be removed. Step 5. Click Remove and confirm the operation. 3.6 RDMA over Converged Ethernet (RoCE) 3.6.1 RoCE Overview Rev 4.40 Remote Direct Memory Access (RDMA) is the remote memory management capability that allows server to server data movement directly between application memory without any CPU involvement. RDMA over Ethernet (RoCE) is a mechanism to provide this efficient data transfer with very low latencies on loss-less Ethernet networks. With advances in data center convergence over reliable Ethernet, ConnectX®-2/ConnectX®-3 EN/ ConnectX®-3Pro EN with RoCE uses the proven and efficient RDMA transport to provide the platform for deploying RDMA technology in mainstream data center application at 10GigE and 40GigE link-speed. ConnectX®-2/ConnectX®-3/ ConnectX®-3Pro EN with its hardware offload support takes advantage of this efficient RDMA transport (InfiniBand) services over Ethernet to deliver ultra low latency for performance-critical and transaction intensive applications such as financial, data base, storage, and content delivery networks.RoCE encapsulates IB transport and GRH headers in Ethernet packets bearing a dedicated ether type. While the use of GRH is optional within InfiniBand subnets, it is mandatory when using RoCE. Applications written over IB verbs should work seamlessly, but they require provisioning of GRH information when creating address vectors. The library and driver are modified to provide mapping from GID to MAC addresses required by the hardware. 3.6.2 RoCE Configuration 3.6.2.1 Prerequisites The following are the driver’s prerequisites in order to set or configure RoCE: • ConnectX®-3 firmware version 2.11.0500 or higher • All InfiniBand verbs applications which run over InfiniBand verbs should work on RoCE links if they use GRH headers. 3.6.2.2 Configuring Windows Host To set HCA to use Ethernet protocol: • Display the Device Manager and expand “System Devices”. Please refer to Section 3.4.2, “Port Protocol Configuration”, on page 17. To start the HCA configuration, perform the steps below: Step 1. Enable PowerShell to configure DCB. PS $ Set-ExecutionPolicy Unrestricted Step 2. Install and enable DCB. PS $ Install-WindowsFeature Data-Center-Bridging Step 3. Remove the previous QoS configuration. PS $ Remove-NetQosTrafficClass PS $ Remove-NetQosPolicy -Confirm:$False Mellanox Technologies 26 WinOF VPI for Windows User Manual Step 4. Rev 4.40 Disable the DCBx setting. PS $ set-NetQosDcbxSetting -Willing 0 Step 5. Create a Quality of Service (QoS) policy to tag RoCE traffic with PCP value 3. PS $ New-NetQosPolicy "SMB" -NetDirectPortMatchCondition 445 PriorityValue8021Action 3 PS $ New-NetQosPolicy "DEFAULT" -Default -PriorityValue8021Action 3 PS $ New-NetQosPolicy "TCP" -IPProtocolMatchCondition TCP PriorityValue8021Action 1 PS $ New-NetQosPolicy "UDP" -IPProtocolMatchCondition UDP PriorityValue8021Action 1 Step 6. Mark the egress traffic with the relevant VlanID. NOTE: The NIC is assumed as "Ethernet 4” as shown in the examples below. PS $ Set-NetAdapterAdvancedProperty -Name <Network Adapter Name> -RegistryKeyword "VlanID" -RegistryValue <ID> Example: PS $ Set-NetAdapterAdvancedProperty -Name "Ethernet 4" -RegistryKeyword "VlanID" -RegistryValue "55" Step 7. Assign an IP address to your interface. When using DHCP, IP address configuration of the NIC is automatic. PS $ Set-NetIPInterface -InterfaceAlias “Ethernet 4” -DHCP Disabled PS $ Remove-NetIPAddress -InterfaceAlias “Ethernet 4” -AddressFamily IPv4 -Confirm:$false PS $ New-NetIPAddress -InterfaceAlias “Ethernet 4” -IPAddress 192.168.1.10 -PrefixLength 24 -Type Unicast Step 8. Set the DNS server (assuming its IP address is 192.168.1.2). PS $ Set-DnsClientServerAddress -InterfaceAlias “Ethernet 4” -ServerAddresses 192.168.1.2 3.6.2.2.1 Using Global Pause Flow Control (GFC) To use Global Pause Flow Control (GFC) mode, disable QoS and Priority: PS $ Disable-NetQosFlowControl PS $ Disable-NetAdapterQos 3.6.2.2.2 Using Priority Flow Control (PFC) To use Priority Flow Control (PFC) mode, please perform the steps below. Step 1. Disable all other priorities. PS $ Disable-NetQosFlowControl 0,1,2,4,5,6,7 Step 2. Enable QoS on the relevant interface. PS $ Enable-NetAdapterQos -InterfaceAlias "Ethernet 4" To enable Priority Flow Control (PFC) on the specific priority 3, run: PS $ Enable-NetQosFlowControl -Priority 3 Mellanox Technologies 27 WinOF VPI for Windows User Manual 3.6.3 Rev 4.40 Configuring SwitchX® Based Switch System To enable RoCE, the SwitchX should be configured as follows: • Ports facing the host should be configured as access ports, and either use global pause or PCP for priority flow control • Ports facing the network should be configured as trunk ports, and use Port Control Protocol (PCP) for priority flow control 3.6.3.1 Configuring SwitchX® Step 1. Set the ports that face the hosts as trunk. (config) # interface ethernet 1/19 (config interface eth 1/19) # switchport mode trunk Step 2. Create LAG for ports that face the network. (config)# interface port-channel 55 Step 3. Assign ports to LAG (ports that connected to switches). (config)# interface ethernet 1/20 channel-group 55 mode active Step 4. Enable trunk on all ports that belong to LAG (port-channel 55). (config)# interface port-channel 55 switchport mode trunk Step 5. Enable IP routing (Should be configured when working with L3 only). (config)# ip routing Step 6. Create a VLAN. (config)# vlan 55 Step 7. Create a VLAN interface (Should be configured when working with L3 only). (config)# interface vlan 55 Step 8. Assign an IP address to the vlan interface. (config)# interface vlan 55 ip address 100.5.5.1 255.255.255.252 Step 9. Allow ports that belongs to LAG (port-channel 55) access VLAN 55. Port-channel 55 is used in the example below as the VLAN ID. (config)# interface port-channel 55 switchport trunk allowed-vlan 55 Step 10. Set access ports VID to match the host VID. The default (native) VID that is associated with access port is VID 1. (config) # interface ethernet 1/19 (config interface eth 1/19) # switchport access vlan 55 Step 11. Disable spanning tree algorithm. (config)# no spanning-tree Step 12. Enable LACP. (config)# lacp Step 13. Enable OSPF routing protocol (Should be configured when working with L3 only). (config)# protocol ospf Mellanox Technologies 28 WinOF VPI for Windows User Manual Rev 4.40 (config)# router ospf (config)# interface vlan 55 ip ospf area 0.0.0. Step 14. Enable PFC on the switch. (config)# dcb priority-flow-control enable Step 15. Enable PFC on the specific priority 3. (config)# dcb priority-flow-control priority 3 enable Step 16. Enable PFC on the port. (config interface eth 1/19)# dcb priority-flow-control mode on force (config interface eth 1/19)# flowcontrol receive off force (config interface eth 1/19)# flowcontrol send off force 3.6.3.1.1 Using Global Pause Flow Control (GFC) Enable GFC on ports that are facing hosts (access ports). (config) # no dcb priority_enable (config) # interface ethernet 1/10 (config interface eth 1/10) # no dcb priority-flow-control mode force (config interface eth 1/10) # flowcontrol receive on force (config interface eth 1/10) # flowcontrol send on force 3.6.4 Configuring Router (PFC only) The router uses L3's DSCP value to mark the egress traffic of L2 PCP. The required mapping, maps the three most significant bits of the DSCP into the PCP. This is the default behavior, and no additional configuration is required. 3.6.4.1 Copying Port Control Protocol (PCP) between Subnets The captured PCP option from the Ethernet header of the incoming packet can be used to set the PCP bits on the outgoing Ethernet header. Mellanox Technologies 29 WinOF VPI for Windows User Manual Rev 4.40 4 Deploying Windows Server 2012 with SMB Direct 4.1 Overview The Server Message Block (SMB) protocol is a network file sharing protocol implemented in Microsoft Windows. The set of message packets that defines a particular version of the protocol is called a dialect. The Microsoft SMB protocol is a client-server implementation and consists of a set of data packets, each containing a request sent by the client or a response sent by the server. SMB protocol is used on top of the TCP/IP protocol or other network protocols. Using the SMB protocol allows applications to access files or other resources on a remote server, to read, create, and update them. In addition, it enables communication with any server program that is set up to receive an SMB client request. 4.2 Hardware and Software Prerequisites The following are hardware and software prerequisites: • Two or more machines running Windows Server 2012 • One or more Mellanox ConnectX®-2, ConnectX®-3, or ConnectX®-3Pro adapters for each server • One or more Mellanox InfiniBand switches • Two or more QSFP cables required for InfiniBand SMB Direct in Windows Server 2012 does not support older Mellanox InfiniBand adapters such as: ConnectX® and InfiniHost® III adapters. 4.3 SMB Configuration Verification 4.3.1 Verifying SMB Configuration Use the following PowerShell cmdlets to verify SMB Multichannel is enabled, confirm the adapters are recognized by SMB and that their RDMA capability is properly identified. • On the SMB client, run the following PowerShell cmdlets: Get-SmbClientConfiguration | Select EnableMultichannel Get-SmbClientNetworkInterface • On the SMB server, run the following PowerShell cmdlets: Get-SmbServerConfiguration | Select EnableMultichannel Get-SmbServerNetworkInterface netstat.exea -xan | ? {$_ -match "445"} a. The NETSTAT command confirms if the File Server is listening on the RDMA interfaces. Mellanox Technologies 30 WinOF VPI for Windows User Manual 4.3.2 Rev 4.40 Verifying SMB Connection To verify the SMB connection on the SMB client: Step 1. Copy the large file to create a new session with the SMB Server. Step 2. Open a PowerShell window while the copy is ongoing. Step 3. Verify the SMB Direct is working properly and that the correct SMB dialect is used. Get-SmbConnection Get-SmbMultichannelConnection netstat.exe -xan | ? {$_ -match "445"} If you have no activity while you run the commands above, you might get an empty list due to session expiration and no current connections. 4.4 Verifying SMB Events that Confirm RDMA Connection To confirm RDMA connection, verify the SMB events: Step 1. Open a PowerShell window on the SMB client. Step 2. Run the following cmdlets. NOTE: Any RDMA-related connection errors will be displayed as well. Get-WinEvent -LogName Microsoft-Windows-SMBClient/Operational | ? Message -match "RDMA" Mellanox Technologies 31 WinOF VPI for Windows User Manual 5 Rev 4.40 Driver Configuration Once you have installed Mellanox WinOF VPI package, you can perform various modifications to your driver to make it suitable for your system’s needs Changes made to the Windows registry happen immediately, and no backup is automatically made. Do not edit the Windows registry unless you are confident regarding the changes. 5.1 Configuring the InfiniBand Driver 5.1.1 Modifying IPoIB Configuration To modify the IPoIB configuration after installation, perform the following steps: Step 1. Open Device Manager and expand Network Adapters in the device display pane. Step 2. Right-click the Mellanox IPoIB Adapter entry and left-click Properties. Step 3. Click the Advanced tab and modify the desired properties. The IPoIB network interface is automatically restarted once you finish modifying IPoIB parameters. Consequently, it might affect any running traffic. 5.1.2 Displaying Adapter Related Information To display a summary of network adapter software, firmware- and hardware-related information such as driver version, firmware version, bus interface, adapter identity, and network port link information, perform the following steps: Mellanox Technologies 32 WinOF VPI for Windows User Manual Step 1. Rev 4.40 Display the Device Manager. Mellanox Technologies 33 WinOF VPI for Windows User Manual Step 2. Rev 4.40 Select the Information tab from the Properties sheet. To save this information for debug purposes, click Save to File and provide the output file name. Mellanox Technologies 34 WinOF VPI for Windows User Manual 5.2 Rev 4.40 Configuring the Ethernet Driver The following steps describe how to configure advanced features. Step 1. Display the Device Manager. Mellanox Technologies 35 WinOF VPI for Windows User Manual Rev 4.40 Step 2. Right-click a Mellanox network adapter (under “Network adapters” list) and left-click Properties. Select the Advanced tab from the Properties sheet. Step 3. Modify configuration parameters to suit your system. Please note the following: a. For help on a specific parameter/option, check the help button at the bottom of the dialog. b. If you select one of the entries Offload Options, Performance Options, or Flow Control Options, you’ll need to click the Properties button to modify parameters via a pop-up dialog. See example in the two figures below. c. A “Use Default for All” button appears on the Advanced dialog. Click this button to set all entries (and their sub-entries) to the Mellanox Ethernet driver default values. You will be prompted to approve this action. Mellanox Technologies 36 WinOF VPI for Windows User Manual 6 Rev 4.40 Performance Tuning This section describes how to modify Windows registry parameters in order to improve performance. Please note that modifying the registry incorrectly might lead to serious problems, including the loss of data, system hang, and you may need to reinstall Windows. As such it is recommended to back up the registry on your system before implementing recommendations included in this section. If the modifications you apply lead to serious problems, you will be able to restore the original registry state. For more details about backing up and restoring the registry, please visit www.microsoft.com. 6.1 General Performance Optimization and Tuning To achieve the best performance for Windows, you may need to modify some of the Windows registries. 6.1.1 Registry Tuning The registry entries that may be added/changed by this “General Tuning” procedure are: Under HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\Tcpip\Parameters: • Disable TCP selective acks option for better cpu utilization: SackOpts, type REG_DWORD, value set to 0. Under HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\AFD\Parameters: • Enable fast datagram sending for UDP traffic: FastSendDatagramThreshold, type REG_DWORD, value set to 64K. Under HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\Ndis\Parameters: • Set RSS parameters: RssBaseCpu, type REG_DWORD, value set to 1. 6.1.2 Enable RSS Enabling Receive Side Scaling (RSS) is performed by means of the following command: “netsh int tcp set global rss = enabled” 6.1.3 Tuning the IPoIB Network Adapter The IPoIB Network Adapter tuning can be performed either during installation by modifying some of Windows registries as explained in Section 6.1.1, “Registry Tuning”, on page 37. or can be set post-installation manually. To improve the network adapter performance, activate the performance tuning tool as follows: Step 1. Start the "Device Manager" (open a command line window and enter: devmgmt.msc). Step 2. Open "Network Adapters". Step 3. Select Mellanox IPoIB adapter, right click and select Properties. Step 4. Select the “Performance tab”. Step 5. Choose one of the tuning scenarios: Mellanox Technologies 37 WinOF VPI for Windows User Manual Step 6. Rev 4.40 • Single port traffic - Improves performance for running single port traffic each time. • Dual port traffic - Improves performance for running traffic on both ports simultaneously. • Forwarding traffic - Improves performance for running scenarios that involve both ports (for example: via IXIA) • Multicast traffic - Improves performance when the main traffic runs on multicast. Click on “Run Tuning” button. Clicking the “Run Tuning” button changes several registry entries (described below), and checks for system services that may decrease network performance. It also generates a log including the applied changes. Users can view this log to restore the previous values. The log path is: %HOMEDRIVE%\Windows\System32\LogFiles\PerformanceTunning.log This tuning is required to be performed only once after the installation is completed, and on one adapter only (as long as these entries are not changed directly in the registry, or by some other installation or script). A reboot may be required for the changes to take effect. 6.1.4 Tuning the Ethernet Network Adapter The Ethernet Network Adapter general tuning can be performed during installation by modifying some of Windows registries as explained in section "Registry Tuning" on page 32. Specific scenarios tuning can be set post-installation manually. To improve the network adapter performance, activate the performance tuning tool as follows: Step 1. Start the "Device Manager" (open a command line window and enter: devmgmt.msc). Step 2. Open "Network Adapters". Step 3. Select Mellanox Ethernet adapter, right click and select Properties. Step 4. Select the "Performance tab". Step 5. Choose one of the tuning scenarios: • Single port traffic - Improves performance for running single port traffic each time. • Single stream traffic - Optimizes tuning for applications with single connection. • Dual port traffic - Improves performance for running traffic on both ports simultaneously. • Forwarding traffic - Improves performance for running scenarios that involve both ports (for example: via IXIA) • Multicast traffic - Improves performance when the main traffic runs on multicast. Mellanox Technologies 38 WinOF VPI for Windows User Manual Rev 4.40 8. Click on “Run Tuning” button. Clicking the "Run Tuning" button activates the general tuning as explained above and changes several driver registry entries for the current adapter and it's sibling device once the sibling is an Ethernet device as well. It also generates a log including the applied changes. Users can view this log to restore the previous values. The log path is: %HOMEDRIVE%\Windows\System32\LogFiles\PerformanceTunning.log This tuning is required to be performed only once after the installation is completed, and on one adapter only (as long as these entries are not changed directly in the registry, or by some other installation or script). Please note that a reboot may be required for the changes to take effect. 6.1.4.1 Performance Tuning Tool Application You can also activate the performance tuning through a script called perf_tuning.exe. This script has 4 options, which include the 3 scenarios described above and an additional manual tuning through which you can set the RSS base and number of processors for each Ethernet adapter. The adapters you wish to tune are supplied to the script by their name according to the “Network Connections”. Mellanox Technologies 39 WinOF VPI for Windows User Manual Rev 4.40 Synopsys perf_tuning.exe -s -c1 <first connection name> [-c2 <second connection name>] perf_tuning.exe -d -c1 <first connection name> -c2 <second connection name> perf_tuning.exe -f -c1 <first connection name> -c2 <second connection name> perf_tuning.exe -m -c1 <first connection name> -b <base RSS processor number> -n <number of RSS processors> perf_tuning -st -c1 <first connection name> [-c2 <second connection name>] Options Flag -s Description Single port traffic scenario. This option can be followed by one or two connection names. The tuning will restore the default settings on the second connection and performed on the first connection. This option automatically sets: • • • • • • SendCompletionMethod = 0 RecvCompletionMethod = 2 *ReceiveBuffers = 1024 UseRSSForRawIP = 1 UseRSSForUDP = 1 In Operating Systems support NDIS6.3: RssProfile = 3 Additionally, this option chooses the best processors to assign to: • • • • • DefaultRecvRingProcessor TxInterruptProcessor TxForwardingProcessor In Operating Systems support NDIS6.2: RssBaseProcNumber MaxRssProcessors In Operating Systems support NDIS6.3: NumRSSQueues RssMaxProcNumber Mellanox Technologies 40 WinOF VPI for Windows User Manual Rev 4.40 Flag -d Description Dual port traffic scenario. This option must be followed by two connection names. The tuning in this case is codependent. This option automatically sets: • • • • • • SendCompletionMethod = 0 RecvCompletionMethod = 2 *ReceiveBuffers = 1024 UseRSSForRawIP = 1 UseRSSForUDP = 1 In Operating Systems support NDIS6.3: RssProfile = 3 Additionally, this option chooses the best processors to assign to: • • • • DefaultRecvRingProcessor TxInterruptProcessor TxForwardingProcessor In Operating Systems support NDIS6.2: RssBaseProcNumber MaxRssProcessors • In Operating Systems support NDIS6.3: NumRSSQueues RssMaxProcNumber -f Forwarding traffic scenario. This option must be followed by two connection names. The tuning in this case is codependent. This option automatically sets: • • • • • SendCompletionMethod = 1 RecvCompletionMethod = 0 *ReceiveBuffers = 4096 UseRSSForRawIP = 0 UseRSSForUDP = 0 Additionally, this option chooses the best processors to assign to: • • • • DefaultRecvRingProcessor TxInterruptProcessor TxForwardingProcessor In Operating Systems support NDIS6.2: RssBaseProcNumber MaxRssProcessors • In Operating Systems support NDIS6.3: NumRSSQueues RssMaxProcNumber -m Manual configuration This option must be followed by one connection name. This option assigns the provided base and number of CPUs to: • • *RssBaseProcNumber *MaxRssProcessors Additionally, this option assigns the following with processors inside the range: • • DefaultRecvRingProcessor TxInterruptProcessor Mellanox Technologies 41 WinOF VPI for Windows User Manual Rev 4.40 Flag -r Description Restore default settings. This option can be followed by one or two connection names. This option automatically sets the driver registry values back to their default values: • • • • • • • • • SendCompletionMethod = 0 RecvCompletionMethod = 2 *ReceiveBuffers = 1024 UseRSSForRawIP = 1 DefaultRecvRingProcessor = -1 TxInterruptProcessor = -1 TxForwardingProcessor = -1 UseRSSForUDP = 1 In Operating Systems support NDIS6.2: • In Operating Systems support NDIS6.3: MaxRssProcessors = 8 NumRSSQueues = 8 -c1 Specifies first connection name. See examples -c2 Specifies second connection name. See examples -b Specifies base RSS processor number. See examples. Used for manual option (-m) only. -n Specifies number of RSS processors. See examples. Used for manual option (-m) only. -st Single stream traffic scenario. This option must be followed by one or two connection names for an Ethernet adapter. The tuning will restore the default settings on the second connection and performed on the first connection. This option automatically sets: • • • • • • SendCompletionMethod = 0 RecvCompletionMethod = 2 *ReceiveBuffers = 1024 UseRSSForRawIP = 1 UseRSSForUDP = 1 In Operating Systems support NDIS6.3: RssProfile = 3 • • • • • Additionally, this option chooses the best processors to assign to: DefaultRecvRingProcessor TxInterruptProcessor TxForwardingProcessor In Operating Systems support NDIS6.2: RssBaseProcNumber MaxRssProcessors • In Operating Systems support NDIS6.3: NumRSSQueues RssMaxProcNumber Mellanox Technologies 42 WinOF VPI for Windows User Manual Rev 4.40 Examples For example, if the adapter is represented by "Local Area Connection 6" and "Local Area Connection 7" For single port stream tuning type: perf_tuning.exe -s -c1 "Local Area Connection 6" -c2 "Local Area Connection 7" or to set one adapter only: perf_tuning.exe -s -c1 "Local Area Connection 6" For single stream tuning type: perf_tuning.exe -st -c1 "Local Area Connection 6" -c2 "Local Area Connection 7" or to set one adapter only: perf_tuning.exe -st -c1 "Local Area Connection 6" For dual port streams tuning type: perf_tuning.exe -d -c1 "Local Area Connection 6" -c2 "Local Area Connection 7" For forwarding streams tuning type: perf_tuning.exe -f -c1 "Local Area Connection 6" -c2 "Local Area Connection 7" For manual tuning of the first adapter to use RSS on CPUs 0-3: perf_tuning.exe -m -c1 "Local Area Connection 6" -b 0 -n 4 In order to restore defaults type: perf_tuning.exe -r -c1 "Local Area Connection 6" -c2 "Local Area Connection 7" 6.2 Application Specific Optimization and Tuning 6.2.1 Ethernet Performance Tuning The user can configure the Ethernet adapter by setting some registry keys. The registry keys may affect Ethernet performance. To improve performance, activate the performance tuning tool as follows: Step 1. Start the "Device Manager" (open a command line window and enter: devmgmt.msc). Step 2. Open "Network Adapters". Step 3. Right click the relevant Ethernet adapter and select Properties. Step 4. Select the "Advanced" tab Step 5. Modify performance parameters (properties) as desired. 6.2.1.1 Performance Known Issues 6.2.2 • On Intel I/OAT supported systems, it is highly recommended to install and enable the latest I/OAT driver (download from www.intel.com). • With I/OAT enabled, sending 256-byte messages or larger will activate I/OAT. This will cause a significant latency increase due to I/OAT algorithms. On the other hand, throughput will increase significantly when using I/OAT. IPoIB Performance Tuning The user can configure the IPoIB adapter by setting some registry keys. The registry keys may affect IPoIB performance. For the complete list of registry entries that may be added/changed by the performance tuning procedure, see MLNX_VPI_WinOF Registry Keys. Mellanox Technologies 43 WinOF VPI for Windows User Manual Rev 4.40 To improve performance, activate the performance tuning tool as follows: 6.3 Step 1. Start the "Device Manager" (open a command line window and enter: devmgmt.msc). Step 2. Open "Network Adapters". Step 3. Right click the relevant IPoIB adapter and select Properties. Step 4. Select the "Advanced" tab Step 5. Modify performance parameters (properties) as desired. Tunable Performance Parameters The following is a list of key parameters for performance tuning. • Jumbo Packet The maximum available size of the transfer unit, also known as the Maximum Transmission Unit (MTU). For IPoIB, the MTU should not include the size of the IPoIB header (=4B). For example, if the network adapter card supports a 4K MTU, the upper threshold for payload MTU is 4092B and not 4096B. The MTU of a network can have a substantial impact on performance. A 4K MTU size improves performance for short messages, since NDIS can coalesce a small message into a larger one. Valid MTU values range for an Ethernet driver is between 614 and 9614. Valid MTU values range for an IPoIB driver is between 1500 and 4092. All devices on the same physical network, or on the same logical network, must have the same MTU. • Receive Buffers The number of receive buffers (default 1024). • Send Buffers The number of sent buffers (default 2048). • Performance Options Configures parameters that can improve adapter performance. • Interrupt Moderation Moderates or delays the interrupts’ generation. Hence, optimizes network throughput and CPU utilization (default Enabled). • When the interrupt moderation is enabled, the system accumulates interrupts and sends a single interrupt rather than a series of interrupts. An interrupt is generated after receiving 5 packets or after 10ms from the first packet received. It improves performance and reduces CPU load however, it increases latency. • When the interrupt moderation is disabled, the system generates an interrupt each time a packet is received or sent. In this mode, the CPU utilization data rates increase, as the system handles a larger number of interrupts. However, the latency decreases as the packet is handled faster. • Receive Side Scaling (RSS Mode) Improves incoming packet processing performance. RSS enables the adapter port to utilize the multiple CPUs in a multi-core system for receiving incoming packets and steering them to the designated destination. RSS can significantly improve the number of transactions, the number of connections per second, and the network throughput. This parameter can be set to one of the following values: Mellanox Technologies 44 WinOF VPI for Windows User Manual Rev 4.40 • Enabled (default): Set RSS Mode • Disabled: The hardware is configured once to use the Toeplitz hash function, and the indirection table is never changed. IOAT is not used while in RSS mode. • Receive Completion Method Sets the completion methods of the received packets, and can affect network throughput and CPU utilization. • Polling Method Increases the CPU utilization as the system polls the received rings for the incoming packets. However, it may increase the network performance as the incoming packet is handled faster. • Interrupt Method Optimizes the CPU as it uses interrupts for handling incoming messages. However, in certain scenarios it can decrease the network throughput. • Adaptive (Default Settings) A combination of the interrupt and polling methods dynamically, depending on traffic type and network usage. Choosing a different setting may improve network and/or system performance in certain configurations. • Interrupt Moderation RX Packet Count Number of packets that need to be received before an interrupt is generated on the receive side (default 5). • Interrupt Moderation RX Packet Time Maximum elapsed time (in usec) between the receiving of a packet and the generation of an interrupt, even if the moderation count has not been reached (default 10). • Rx Interrupt Moderation Type Sets the rate at which the controller moderates or delays the generation of interrupts making it possible to optimize network throughput and CPU utilization. The default setting (Adaptive) adjusts the interrupt rates dynamically depending on the traffic type and network usage. Choosing a different setting may improve network and system performance in certain configurations. • Send completion method Sets the completion methods of the Send packets and it may affect network throughput and CPU utilization. • Interrupt Moderation TX Packet Count Number of packets that need to be sent before an interrupt is generated on the send side (default 0). • Interrupt Moderation TX Packet Time Maximum elapsed time (in usec) between the sending of a packet and the generation of an interrupt even if the moderation count has not been reached (default 0). • Bus-master DMA Operations Sets the addressing type: NDIS DMA addressing (UseDma=Enabled) or physical addressing (UseDma=Disabled) (default Disabled). Mellanox Technologies 45 WinOF VPI for Windows User Manual • Rev 4.40 Offload Options Allows you to specify which TCP/IP offload settings are handled by the adapter rather than the operating system. Enabling offloading services increases transmission performance as the offload tasks are performed by the adapter hardware rather than the operating system. Thus, freeing CPU resources to work on other tasks. • IPv4 Checksums Offload Enables the adapter to compute IPv4 checksum upon transmit and/or receive instead of the CPU (default Enabled). • TCP/UDP Checksum Offload for IPv4 packets Enables the adapter to compute TCP/UDP checksum over IPv4 packets upon transmit and/or receive instead of the CPU (default Enabled). • TCP/UDP Checksum Offload for IPv6 packets Enables the adapter to compute TCP/UDP checksum over IPv6 packets upon transmit and/or receive instead of the CPU (default Enabled). • Large Send Offload (LSO) Allows the TCP stack to build a TCP message up to 64KB long and sends it in one call down the stack. The adapter then re-segments the message into multiple TCP packets for transmission on the wire with each pack sized according to the MTU. This option offloads a large amount of kernel processing time from the host CPU to the adapter. • IB Options Configures parameters related to InfiniBand functionality. • SA Query Retry Count Sets the number of SA query retries once a query fails. The valid values are 1 - 64 (default 10). • SA Query Timeout Sets the waiting timeout (in millisecond) of an SA query completion. The valid values are 500 60000 (default 1000 ms). 6.4 Adapter Proprietary Performance Counters Proprietary Performance Counters are used to provide information on Operating System, application, service or the drivers' performance. Counters can be used for different system debugging purposes, help to determine system bottlenecks and fine-tune system and application performance. The Operating System, network, and devices provide counter data that the application can consume to provide users with a graphical view of the system’s performance quality. WinOF counters hold the standard Windows CounterSet API that includes: • Network Interface • RDMA activity • SMB Direct Connection Mellanox Technologies 46 WinOF VPI for Windows User Manual 6.4.1 Rev 4.40 Supported Standard Performance Counters 6.4.1.1 Proprietary Mellanox Adapter Traffic Counters Proprietary Mellanox adapter traffic counter set consists of global traffic statistics which gather information from ConnectX®-3 and ConnectX®-3Pro network adapters, and includes traffic statistics, and various types of error and indications from both the Physical Function and Virtual Function. Table 5 - Mellanox Adapter Traffic Counters Mellanox Adapter Traffic Counters Description Bytes IN Bytes Received Shows the number of bytes received by ConnectX-3 and ConnectX-3Pro network adapter. The counted bytes include framing characters. Bytes Received/Sec Shows the rate at which bytes are received by ConnectX-3 and ConnectX-3Pro network adapter. The counted bytes include framing characters. Packets Received Shows the number of packets received by ConnectX-3 and ConnectX3Pro network interface. Packets Received/Sec Shows the rate at which packets are received by ConnectX-3 and ConnectX-3Pro network interface. Bytes/ Packets OUT Bytes Sent Shows the number of bytes sent by ConnectX-3 and ConnectX-3Pro network adapter. The counted bytes include framing characters. Bytes Sent/Sec Shows the rate at which bytes are sent by ConnectX-3 and ConnectX3Pro network adapter. The counted bytes include framing characters. Packets Sent Shows the number of packets sent by ConnectX-3 and ConnectX-3Pro network interface. Packets Sent/Sec Shows the rate at which packets are sent by ConnectX-3 and ConnectX3Pro network interface. Bytes’ TOTAL Bytes Total Shows the total of bytes handled by ConnectX-3 and ConnectX-3Pro network adapter. The counted bytes include framing characters. Bytes Total/Sec Shows the total rate of bytes that are sent and received by ConnectX-3and ConnectX-3Pro network adapter. The counted bytes include framing characters. Packets Total Shows the total of packets handled by ConnectX-3 and ConnectX-3Pro network interface. Packets Total/Sec Shows the rate at which packets are sent and received by ConnectX-3 and ConnectX-3Pro network interface. Control Packets The total number of successfully received control frames Mellanox Technologies 47 WinOF VPI for Windows User Manual Rev 4.40 Table 5 - Mellanox Adapter Traffic Counters Mellanox Adapter Traffic Counters Description ERRORS, DROP, AND MISC. INDICATIONS Packets Outbound Errors Shows the number of outbound packets that could not be transmitted because of errors. Packets Outbound Discarded Shows the number of outbound packets to be discarded even though no errors had been detected to prevent transmission. One possible reason for discarding packets could be to free up buffer space. Packets Received Errors Shows the number of inbound packets that contained errors preventing them from being deliverable to a higher-layer protocol. Packets Received with Frame Length Error Shows the number of inbound packets that contained error where the frame has length error. Packets received with frame length error are a subset of packets received errors. Packets Received with Symbol Error Shows the number of inbound packets that contained symbol error or an invalid block. Packets received with symbol error are a subset of packets received errors. Packets Received with Bad CRC Error Shows the number of inbound packets that contained bad CRC error. Packets received with bad CRC error are a subset of packets received errors. Packets Received Discarded Shows the number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol. One possible reason for discarding such a packet could be to free up buffer space. 6.4.1.2 Proprietary Mellanox Adapter Diagnostics Counters Proprietary Mellanox adapter diagnostics counter set consists of the NIC diagnostics. These counters collect information from ConnectX®-3 and ConnectX®-3Pro firmware flows. Table 6 - Mellanox Adapter Diagnostics Counters Mellanox Adapter Diagnostics Counters Description Requester length errors Number of local length errors when the local machine generates outbound traffic. Responder length errors Number of local length errors when the local machine receives inbound traffic. Requester QP operation errors Number of local QP operation errors when the local machine generates outbound traffic. Responder QP operation errors Number of local QP operation errors when the local machine receives inbound traffic. Requester protection errors Number of local protection errors when the local machine generates outbound traffic. Mellanox Technologies 48 WinOF VPI for Windows User Manual Rev 4.40 Table 6 - Mellanox Adapter Diagnostics Counters Mellanox Adapter Diagnostics Counters Description Responder protection errors Number of local protection errors when the local machine receives inbound traffic. Requester CQE errors Number of local CQE with errors when the local machine generates outbound traffic. Responder CQE errors Number of local CQE with errors when the local machine receives inbound traffic. Requester Invalid request errors Number of remote invalid request errors when the local machine generates outbound traffic, i.e. NAK was received indicating that the other end detected invalid OpCode request. Responder Invalid request errors Number of remote invalid request errors when the local machine receives inbound traffic. Requester Remote access errors Number of remote access errors when the local machine generates outbound traffic, i.e. NAK was received indicating that the other end detected wrong rkey. Responder Remote access errors Number of remote access errors when the local machine receives inbound traffic, i.e. the local machine received RDMA request with wrong rkey. Requester RNR NAK Number of RNR (Receiver Not Ready) NAKs received when the local machine generates outbound traffic. Responder RNR NAK Number of RNR (Receiver Not Ready) NAKs sent when the local machine receives inbound traffic. Requester out of order sequence NAK Number of Out of Sequence NAK received when the local machine generates outbound traffic, i.e. the number of times the local machine received NAKs indicating OOS on the receiving side. Responder out of order sequence received Number of Out of Sequence packet received when the local machine receives inbound traffic, i.e. the number of times the local machine received messages that are not consecutive. Requester resync Number of resync operations when the local machine generates outbound traffic. Responder resync Number of resync operations when the local machine receives inbound traffic. Requester Remote operation errors Number of remote operation errors when the local machine generates outbound traffic, i.e. NAK was received indicating that the other end encountered an error that prevented it from completing the request. Requester transport retries exceeded errors Number of transport retries exceeded errors when the local machine generates outbound traffic. Requester RNR NAK retries exceeded errors Number of RNR (Receiver Not Ready) NAKs retries exceeded errors when the local machine generates outbound traffic. Mellanox Technologies 49 WinOF VPI for Windows User Manual Rev 4.40 Table 6 - Mellanox Adapter Diagnostics Counters Mellanox Adapter Diagnostics Counters Description Bad multicast received Number of bad multicast packet received. Discarded UD packets Number of UD packets silently discarded on the receive queue due to lack of receives descriptor. Discarded UC packets Number of UC packets silently discarded on the receive queue due to lack of receives descriptor. CQ overflows Number of CQ overflows. NOTE: this value is evaluated for the entire NIC since there are cases where CQ might be associated with both ports (i.e. the value on all ports is identical). EQ overflows Number of EQ overflows. NOTE: this value is evaluated for the entire NIC since there are cases where EQ might be associated with both ports (i.e. the value on all ports is identical). Bad doorbells Number of bad DoorBells Responder duplicate request received (pending firmware implementation). Number of duplicate requests received when the local machine receives inbound traffic. Requester time out received (pending firmware implementation). Number of time out received when the local machine generates outbound traffic. 6.4.1.3 Proprietary Mellanox QoS Counters Proprietary Mellanox QoS counter set consists of flow statistics per (VLAN) priority. Each QoS policy is associated with a priority. The counter presents the priority's traffic, pause statistics. Table 7 - Mellanox QoS Counters Mellanox QoS Counters Description Bytes/ Packets IN Bytes Received The number of bytes received that are covered by this priority. The counted bytes include framing characters (modulo 2^64). Bytes Received/Sec The number of bytes received per second that are covered by this priority. The counted bytes include framing characters. Packets Received The number of packets received that are covered by this priority (modulo 2^64). Packets Received/Sec The number of packets received per second that are covered by this priority. Bytes/ Packets OUT Mellanox Technologies 50 WinOF VPI for Windows User Manual Rev 4.40 Table 7 - Mellanox QoS Counters Mellanox QoS Counters Description Bytes Sent The number of bytes sent that are covered by this priority. The counted bytes include framing characters (modulo 2^64). Bytes Sent/Sec The number of bytes sent per second that are covered by this priority. The counted bytes include framing characters. Packets Sent The number of packets sent that are covered by this priority (modulo 2^64). Packets Sent/Sec The number of packets sent per second that are covered by this priority. Bytes and Packets’ TOTAL Bytes Total The total number of bytes that are covered by this priority. The counted bytes include framing characters (modulo 2^64). Bytes Total/Sec The total number of bytes per second that are covered by this priority. The counted bytes include framing characters. Packets Total The total number of packets that are covered by this priority (modulo 2^64). Packets Total/Sec The total number of packets per second that are covered by this priority. PAUSE INDICATION Per prio sent pause frames The number of pause frames that were sent to priority i. The untagged instance indicates global pause that were sent. Per prio sent pause duration The total duration in microseconds of pause that was sent to the other end to freeze the transmission on priority i. Per prio rcv pause frames The number of pause frames that were received for priority i. The untagged instance indicates global pause that were received Per prio rcv pause duration The total duration in microseconds of pause that was requested by the other end to freeze transmission on priority i. Mellanox Technologies 51 WinOF VPI for Windows User Manual 7 Rev 4.40 OpenSM - Subnet Manager OpenSM v3.3.11 is an InfiniBand Subnet Manager. In order to operate one host machine or more in the InfiniBand cluster., at least one Subnet Manger is required in the fabric. Please use the embedded OpenSM in the WinOF package for testing purpose and small cluster. Otherwise, we recommend using OpenSM from FabricIT EFM™ or UFM® or MLNX-OS®. OpenSM can run as a Windows service and can be started manually from the following directory: <installation_directory>\tools. OpenSM as a service will use the first active port, unless it receives a specific GUID. OpenSM can be registered as a service from either the Command Line Interface (CLI) or the PowerShell. The following are commands used from the CLI: To register it as a service execute the OpenSM service: sc create OpenSM binPath= "c:\Program Files\Mellanox\MLNX_VPI\IB\Tools\opensm.exe --service" start= auto To start OpenSM as a service: sc start OpenSM To run OpenSM manually: opensm.exe For additional run options, enter: “opensm.exe -h” The following are commands used from the PowerShell: To register it as a service execute the OpenSM service: New-Service –Name "OpenSM" –BinaryPathName "`"C:\Program Files\Mellanox\MLNX_VPI\IB\Tools\opensm.exe`" --service -L 128" -DisplayName "OpenSM" – Description "OpenSM for IB subnet" -StartupType Automatic To start OpenSM as a service run: Start-Service OpenSM1 Notes • For long term running, please avoid using the '-v' (verbosity) option to avoid exceeding disk quota. • Running OpenSM on multiple servers may lead to incorrect OpenSM behavior. Please do not run more than two instances of OpenSM in the subnet. Mellanox Technologies 52 WinOF VPI for Windows User Manual 8 8.1 Rev 4.40 InfiniBand Fabric Network Direct Interface The Network Direct Interface (NDI) architecture provides application developers with a networking interface that enables zero-copy data transfers between applications, kernel-bypass I/O generation and completion processing, and one-sided data transfer operations. NDI is supported by Microsoft and is the recommended method to write InfiniBand application. NDI exposes the advanced capabilities of the Mellanox networking devices and allows applications to leverage advances of InfiniBand. For further information please refer to: http://msdn.microsoft.com/en-us/library/cc904397(v=vs.85).aspx 8.2 part_man - Virtual IPoIB Port Creation Utility part_man is used to add/remove virtual IPoIB ports. Currently, each Mellanox IPoIB port can have a single virtual IPoIB only which is created with a PKey value of 0xffff. Usage part_man.exe [-v] <show|add|rem> ["Local area connection #"] [name] • -v: increases verbosity level. • Show: shows the currently configured virtual ipoib ports. • Add: adds new virtual IPoIB port. Where add should be used with interface name, as it appears in Network connection in the control panel. • Name: any printable name without quotations marks (“ ”), commas, and starting with i. • Rem: removes existing virtual IPoIB port. Therefore, it requires running it with Show, then copy the parameters. Example Adding and removing virtual port: part_man Done... Part_man Ethernet part_man Done 8.3 add "Ethernet 4" ipoib_4_1 show 6 rem "Ethernet 6" ipoib_4_1 ipoib_4_1 InfiniBand Fabric Diagnostic Utilities The diagnostic utilities described in this chapter provide means for debugging the connectivity and status of InfiniBand (IB) devices in a fabric. 8.3.1 Utilities Usage This section first describes common configuration, interface, and addressing for all the tools in the package. Then it provides detailed descriptions of the tools themselves including: operation, synopsis and options descriptions, error codes, and examples. Mellanox Technologies 53 WinOF VPI for Windows User Manual Rev 4.40 8.3.1.1 Common Configuration, Interface and Addressing Topology File (Optional) An InfiniBand fabric is composed of switches and channel adapter (HCA/TCA) devices. To identify devices in a fabric (or even in one switch system), each device is given a GUID (a MAC equivalent). Since a GUID is a non-user-friendly string of characters, it is better to alias it to a meaningful, user-given name. For this objective, the IB Diagnostic Tools can be provided with a “topology file”, which is an optional configuration file specifying the IB fabric topology in usergiven names. For diagnostic tools to fully support the topology file, the user may need to provide the local system name (if the local hostname is not used in the topology file). To specify a topology file to a diagnostic tool use one of the following two options: 1. On the command line, specify the file name using the option ‘-t <topology file name>’ 2. Define the environment variable IBDIAG_TOPO_FILE To specify the local system name to an diagnostic tool use one of the following two options: 1. On the command line, specify the system name using the option ‘-s <local system name>’ 2. Define the environment variable IBDIAG_SYS_NAME 8.3.1.2 IB Interface Definition The diagnostic tools installed on a machine connect to the IB fabric by means of an HCA port through which they send MADs. To specify this port to an IB diagnostic tool use one of the following options: 1. On the command line, specify the port number using the option ‘-p <local port number>’ (see below) 2. Define the environment variable IBDIAG_PORT_NUM In case more than one HCA device is installed on the local machine, it is necessary to specify the device’s index to the tool as well. For this use on of the following options: 1. On the command line, specify the index of the local device using the following option: ‘-i <index of local device>’ 2. Define the environment variable IBDIAG_DEV_IDX 8.3.1.3 Addressing This section applies to the ibdiagpath tool only. A tool command may require defining the destination device or port to which it applies. The following addressing modes can be used to define the IB ports: • Using a Directed Route to the destination: (Tool option ‘-d’) This option defines a directed route of output port numbers from the local port to the destination. • Using port LIDs: (Tool option ‘-l’): In this mode, the source and destination ports are defined by means of their LIDs. If the fabric is configured to allow multiple LIDs per port, then using any of them is valid for defining a port. Mellanox Technologies 54 WinOF VPI for Windows User Manual • Rev 4.40 Using port names defined in the topology file: (Tool option ‘-n’) This option refers to the source and destination ports by the names defined in the topology file. (Therefore, this option is relevant only if a topology file is specified to the tool.) In this mode, the tool uses the names to extract the port LIDs from the matched topology, then the tool operates as in the ‘-l’ option. 8.3.2 ibdiagnet ibdiagnet [-c <count>] [-v] [-r] [-o <out-dir>] [-t <topo-file>] [-s <sys-name>] [-i <dev-index>] [-p <port-num>] [-pm] [-pc] [-P <<PM counter>=<Trash Limit>>] [-lw <1x|4x|12x>] [-ls <2.5|5|10>] [-skip <dup_guids|zero_guids|pm|logical_state>] 8.3.2.1 ibdiagnet Options Table 8 - ibdiagnet Options Flag Description -c <count> Min number of packets to be sent across each link (default = 10 -v Enable verbose mode -r Provides a report of the fabric qualities -o <out-dir> Specifies the directory where the output files will be placed (default = / tmp) -t <topo-file> Specifies the topology file name -s <sys-name> Specifies the local system name. Meaningful only if a topology file is specified -i <dev-index> Specifies the index of the device of the port used to connect to the IB fabric (in case of multiple devices on the local system) -p <port-num> Specifies the local device's port num used to connect to the IB fabric -pm Dump all the fabric links, pm Counters into ibdiagnet.pm -pc Reset all the fabric links pmCounters -P <PM=<Trash>> If any of the provided pm is greater then its provided value, print it to screen -lw <1x|4x|12x> Specifies the expected link width -ls <2.5|5|10> Specifies the expected link speed -skip <skip-option(s)> Skip the executions of the selected checks. Skip options (one or more can be specified): dup_guids zero_guids pm logical_state part ipoib all Mellanox Technologies 55 WinOF VPI for Windows User Manual Rev 4.40 8.3.2.2 ibdiagnet Output Files Table 9 - ibdiagnet Output Files Output File Description ibdiagnet.log A dump of all the application reports generate according to the provided flags ibdiagnet.lst List of all the nodes, ports and links in the fabric ibdiagnet.fdbs A dump of the unicast forwarding tables of the fabric switches ibdiagnet.mcfdbs A dump of the multicast forwarding tables of the fabric switches ibdiagnet.masks In case of duplicate port/node Guids, these file include the map between masked Guid and real Guids ibdiagnet.sm List of all the SM (state and priority) in the fabric ibdiagnet.pm A dump of the pm Counters values, of the fabric links ibdiagnet.pkey A dump of the the existing partitions and their member host ports ibdiagnet.mcg A dump of the multicast groups, their properties and member host ports ibdiagnet.db A dump of the internal subnet database. This file can be loaded in later runs using the load_db option In addition to generating the files above, the discovery phase also checks for duplicate node/port GUIDs in the IB fabric. If such an error is detected, it is displayed on the standard output. After the discovery phase is completed, directed route packets are sent multiple times (according to the -c option) to detect possible problematic paths on which packets may be lost. Such paths are explored, and a report of the suspected bad links is displayed on the standard output. After scanning the fabric, if the -r option is provided, a full report of the fabric qualities is displayed. This report includes: • SM report • Number of nodes and systems • Hop-count information: maximal hop-count, an example path, and a hop-count histogram • All CA-to-CA paths traced • Credit loop report • mgid-mlid-HCAs multicast group and report • Partitions report • IPoIB report In case the IB fabric includes only one CA, then CA-to-CA paths are not reported. Furthermore, if a topology file is provided, ibdiagnet uses the names defined in it for the output reports. Mellanox Technologies 56 WinOF VPI for Windows User Manual Rev 4.40 8.3.2.3 ibdiagnet Error Codes 1 2 3 4 5 6 8.3.3 - Failed Failed Failed Failed Failed Failed to to to to to to fully discover the fabric parse command line options intract with IB fabric use local device or local port use Topology File load requierd Package ibportstate Enables querying the logical (link) and physical port states of an InfiniBand port. It also allows adjusting the link speed that is enabled on any InfiniBand port. If the queried port is a swich port, then ibportstate can be used to • Disable, enable or reset the port • Validate the port’s link width and speed against the peer port 8.3.3.1 ibportstate Applicable Hardware All InfiniBand devices. 8.3.3.2 ibportstate Synopsis ibportstate [-d] [-e] [-v] [-V] [-D] [-L] [-G] [-s <smlid>] \ <ca_name>] [-P <ca_port>] [-u] [-t <timeout_ms>] \ dr_path|lid|guid>] <portnum> [<op> [<value>]] [-C [<dest 8.3.3.3 ibportstate Options The table below lists the various flags of the command. Table 10 - ibportstate Flags and Options Flag Description -h/--help Print the help menu -d/--debug Raise the IB debug level. May be used several times for higher debug levels (-ddd or -d -d -d) -e/--errors Show send and receive errors (timeouts and others) -v/--verbose Increase verbosity level. May be used several times for additional verbosity (-vvv or -v -v -v) -V/--version Show version info -D/--Direct Use directed path address arguments. The path is a comma separated list of out ports. Examples: ‘0’ – self port ‘0,1,2,1,4’ – out via port 1, then 2, ... -L/--Lid Use Lid address argument Mellanox Technologies 57 WinOF VPI for Windows User Manual Rev 4.40 Table 10 - ibportstate Flags and Options (Continued) Flag Description -G/--Guid Use GUID address argument. In most cases, it is the Port GUID. Example: ‘0x08f1040023’ -s/--sm_port Use <smlid> as the target lid for SM/SA queries -C/--Ca Use the specified channel adapter or router -P/--Port Use the specified port -u/--usage Usage message -t/--timeout Override the default timeout for the solicited MADs [msec] <dest dr_path | lid | guid> Destination’s directed path, LID, or GUID. <portnum> Destination’s port number <op> [<value>] Define the allowed port operations: enable, disable, reset, speed, and query In case of multiple channel adapters (CAs) or multiple ports without a CA/port being specified, a port is chosen by the utility according to the following criteria: 1. The first ACTIVE port that is found. 2. If not found, the first port that is UP (physical link state is LinkUp). Examples 1. Query the status of Port 1 of CA mlx4_0 (using ibstatus) and use its output (the LID – 3 in this case) to obtain additional link information using ibportstate. > ibstat CA type: MT4099 Number of ports: 2 Firmware version: 2.11.536 Hardware version: 0 Node GUID: 0x0002c903002e6670 System image GUID: 0x0002c903002e6673 Port 1: Physical state: Disabled Rate: 10 Base lid: 4 LMC: 0 SM lid: 2 Capability mask: 0x0251486a Port GUID: 0x0002c903002e6671 Link layer: InfiniBand > ibportstate -C mlx4_0 4 1 query PortInfo: # Port info: Lid 3 port 1 LinkState:.......................Initialize PhysLinkState:...................LinkUp LinkWidthSupported:..............1X or 4X Mellanox Technologies 58 WinOF VPI for Windows User Manual Rev 4.40 LinkWidthEnabled:................1X or 4X LinkWidthActive:.................4X LinkSpeedSupported:..............2.5 Gbps or 5.0 Gbps LinkSpeedEnabled:................2.5 Gbps or 5.0 Gbps LinkSpeedActive:.................5.0 Gbps 2. Query the status of two channel adapters using directed paths. > ibportstate -C mlx4_0 -D 0 1 PortInfo: # Port info: DR path slid 65535; dlid 65535; 0 port 1 LinkState:.......................Initialize PhysLinkState:...................LinkUp LinkWidthSupported:..............1X or 4X LinkWidthEnabled:................1X or 4X LinkWidthActive:.................4X LinkSpeedSupported:..............2.5 Gbps or 5.0 Gbps LinkSpeedEnabled:................2.5 Gbps or 5.0 Gbps LinkSpeedActive:.................5.0 Gbps > ibportstate -C mthca0 -D 0 1 PortInfo: # Port info: DR path slid 65535; dlid 65535; 0 port 1 LinkState:.......................Down PhysLinkState:...................Polling LinkWidthSupported:..............1X or 4X LinkWidthEnabled:................1X or 4X LinkWidthActive:.................4X LinkSpeedSupported:..............2.5 Gbps LinkSpeedEnabled:................2.5 Gbps LinkSpeedActive:.................2.5 Gbps 3. Change the speed of a port. # First query for current configuration > ibportstate -C mlx4_0 -D 0 1 PortInfo: # Port info: DR path slid 65535; dlid 65535; 0 port 1 LinkState:.......................Initialize PhysLinkState:...................LinkUp LinkWidthSupported:..............1X or 4X LinkWidthEnabled:................1X or 4X LinkWidthActive:.................4X LinkSpeedSupported:..............2.5 Gbps or 5.0 Gbps LinkSpeedEnabled:................2.5 Gbps or 5.0 Gbps LinkSpeedActive:.................5.0 Gbps # Now change the enabled link speed > ibportstate -C mlx4_0 -D 0 1 speed 2 ibportstate -C mlx4_0 -D 0 1 speed 2 Initial PortInfo: # Port info: DR path slid 65535; dlid 65535; 0 port 1 Mellanox Technologies 59 WinOF VPI for Windows User Manual Rev 4.40 LinkSpeedEnabled:................2.5 Gbps After PortInfo set: # Port info: DR path slid 65535; dlid 65535; 0 port 1 LinkSpeedEnabled:................5.0 Gbps (IBA extension) # Show the new configuration > ibportstate -C mlx4_0 -D 0 1 PortInfo: # Port info: DR path slid 65535; dlid 65535; 0 port 1 LinkState:.......................Initialize PhysLinkState:...................LinkUp LinkWidthSupported:..............1X or 4X LinkWidthEnabled:................1X or 4X LinkWidthActive:.................4X LinkSpeedSupported:..............2.5 Gbps or 5.0 Gbps LinkSpeedEnabled:................5.0 Gbps (IBA extension) LinkSpeedActive:.................5.0 Gbps 8.3.4 ibroute Uses SMPs to display the forwarding tables for unicast (LinearForwardingTable or LFT) or multicast (MulticastForwardingTable or MFT) for the specified switch LID and the optional lid (mlid) range. The default range is all valid entries in the range of 1 to FDBTop. 8.3.4.1 ibroute Applicable Hardware InfiniBand switches. 8.3.4.2 ibroute Synopsis ibroute [-h] [-d] [-v] [-V] [-a] [-n] [-D] [-G] [-M] [-L] [-e] [-u] [-s <smlid>] \ [-C <ca_name>] [-P <ca_port>] [-t <timeout_ms>] \ [<dest dr_path|lid|guid> [<startlid> [<endlid>]]] 8.3.4.3 ibroute Options The table below lists the various ibroute flags of the command. Table 11 - ibroute Flags and Options Flag Description -h/--help Print the help menu -d/--debug Raise the IB debug level. May be used several times for higher debug levels (-ddd or -d -d -d) -a/--all Show all LIDs in range, including invalid entries -v/--verbose Increase verbosity level. May be used several times for additional verbosity (-vvv or -v -v -v) -V/--version Show version info Mellanox Technologies 60 WinOF VPI for Windows User Manual Rev 4.40 Table 11 - ibroute Flags and Options Flag Description -n/--no_dests Do not try to resolve destinations -D/--Direct Use directed path address arguments. The path is a comma separated list of out ports. Examples: ‘0’ – self port ‘0,1,2,1,4’ – out via port 1, then 2, ... -G/--Guid Use GUID address argument. In most cases, it is the Port GUID. Example: ‘0x08f1040023’ -M/--Multicast Show multicast forwarding tables. The parameters <startlid> and <endlid> specify the MLID range. -L/--Lid Use Lid address argument -u/--usage Usage message -e/--errors Show send and receive errors (timeouts and others) -s/--sm_port <smlid> Use <smlid> as the target LID for SM/SA queries -C/--Ca <ca_name> Use the specified channel adapter or router -P/--Port <ca_port> Use the specified port -t/--timeout<timeout_ms> Override the default timeout for the solicited MADs [msec] <dest dr_path | lid | guid> Destination’s directed path, LID, or GUID <startlid> Starting LID in an MLID range <endlid> Ending LID in an MLID range Examples 1. Dump all Lids with valid out ports of the switch with Lid 2. > ibroute 2 Unicast lids [0x0-0x8] of switch Lid 2 guid 0x0002c902fffff00a (MT47396 InfiniscaleIII Mellanox Technologies): Lid Out Destination Port Info 0x0002 000 : (Switch portguid 0x0002c902fffff00a: 'MT47396 Infiniscale-III Mellanox Technologies') 0x0003 021 : (Switch portguid 0x000b8cffff004016: 'MT47396 Infiniscale-III Mellanox Technologies') 0x0006 007 : (Channel Adapter portguid 0x0002c90300001039: 'sw137 HCA-1') 0x0007 021 : (Channel Adapter portguid 0x0002c9020025874a: 'sw157 HCA-1') 0x0008 008 : (Channel Adapter portguid 0x0002c902002582cd: 'sw136 HCA-1') 5 valid lids dumped 2. Dump all Lids in the range 3 to 7 with valid out ports of the switch with Lid 2. > ibroute 2 3 7 Mellanox Technologies 61 WinOF VPI for Windows User Manual Rev 4.40 Unicast lids [0x3-0x7] of switch Lid 2 guid 0x0002c902fffff00a (MT47396 InfiniscaleIII Mellanox Technologies): Lid Out Destination Port Info 0x0003 021 : (Switch portguid 0x000b8cffff004016: 'MT47396 Infiniscale-III Mellanox Technologies') 0x0006 007 : (Channel Adapter portguid 0x0002c90300001039: 'sw137 HCA-1') 0x0007 021 : (Channel Adapter portguid 0x0002c9020025874a: 'sw157 HCA-1') 3 valid lids dumped 3. Dump all Lids with valid out ports of the switch with portguid 0x000b8cffff004016. > ibroute -G 0x000b8cffff004016 Unicast lids [0x0-0x8] of switch Lid 3 guid 0x000b8cffff004016 (MT47396 InfiniscaleIII Mellanox Technologies): Lid Out Destination Port Info 0x0002 023 : (Switch portguid 0x0002c902fffff00a: 'MT47396 Infiniscale-III Mellanox Technologies') 0x0003 000 : (Switch portguid 0x000b8cffff004016: 'MT47396 Infiniscale-III Mellanox Technologies') 0x0006 023 : (Channel Adapter portguid 0x0002c90300001039: 'sw137 HCA-1') 0x0007 020 : (Channel Adapter portguid 0x0002c9020025874a: 'sw157 HCA-1') 0x0008 024 : (Channel Adapter portguid 0x0002c902002582cd: 'sw136 HCA-1') 5 valid lids dumped 4. Dump all non-empty mlids of switch with Lid 3. > ibroute -M 3 Multicast mlids [0xc000-0xc3ff] of switch Lid 3 guid 0x000b8cffff004016 (MT47396 Infiniscale-III Mellanox Technologies): 0 1 2 Ports: 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 MLid 0xc000 x 0xc001 x 0xc002 x 0xc003 x 0xc020 x 0xc021 x 0xc022 x 0xc023 x 0xc024 x 0xc040 x 0xc041 x 0xc042 x 12 valid mlids dumped 8.3.5 smpquery Provides a basic subset of standard SMP queries to query Subnet management attributes such as node info, node description, switch info, and port info. Mellanox Technologies 62 WinOF VPI for Windows User Manual Rev 4.40 8.3.5.1 smpquery Applicable Hardware All InfiniBand devices. 8.3.5.2 smpquery Synopsys smpquery [-h] [-d] [-e] [-c] [-v] [-D] [-G] [-s <smlid>] [-L] [-u] [-V] [-C <ca_name>] [-P <ca_port>] [-t <timeout_ms>] [--node-name-map <node-name-map>] <op> <dest dr_path|lid|guid> [op params] 8.3.5.3 smpquery Options The table below lists the various flags of the command. Table 12 - smpquery Flags and Options Flag Description -h/--help Print the help menu -d/--debug Raise the IB debug level. May be used several times for higher debug levels (-ddd or -d -d -d) -e/--errors Show send and receive errors (timeouts and others) -v/--verbose Increase verbosity level. May be used several times for additional verbosity (-vvv or -v -v -v) -D/--Direct Use directed path address arguments. The path is a comma separated list of out ports. Examples: ‘0’ – self port ‘0,1,2,1,4’ – out via port 1, then 2, ... -G/--Guid Use GUID address argument. In most cases, it is the Port GUID. Example: ‘0x08f1040023’ -s/--sm_port <smlid> Use <smlid> as the target LID for SM/SA queries -V/--version Show version info -L/--Lid Use Lid address argument -c/--combined Use combined route address argument -u/--usage Usage message -C/--Ca <ca_name> Use the specified channel adapter or router -P/--Port <ca_port> Use the specified port -t/--timeout <timeout_ms> Override the default timeout for the solicited MADs [msec] Mellanox Technologies 63 WinOF VPI for Windows User Manual Rev 4.40 Table 12 - smpquery Flags and Options Flag <op> Description Supported operations: • • • • • • • • NodeInfo (NI) <addr> NodeDesc (ND) <addr> PortInfo (PI) <addr> [<portnum>] SwitchInfo (SI) <addr> PKeyTable (PKeys) <addr> [<portnum>] SL2VLTable (SL2VL) <addr> [<portnum>] VLArbitration (VLArb) <addr> [<portnum>] GUIDInfo (GI) <addr> <dest dr_path | lid | guid> Destination’s directed path, LID, or GUID --node-name-map <file> Node name map file -x/--extended Use extended speeds Examples 1. Query PortInfo by LID, with port modifier. > smpquery portinfo 1 1 # Port info: Lid 1 port 1 Mkey:............................0x0000000000000000 GidPrefix:.......................0xfe80000000000000 Lid:.............................0x0001 SMLid:...........................0x0001 CapMask:.........................0x251086a IsSM IsTrapSupported IsAutomaticMigrationSupported IsSLMappingSupported IsSystemImageGUIDsupported IsCommunicatonManagementSupported IsVendorClassSupported IsCapabilityMaskNoticeSupported IsClientRegistrationSupported DiagCode:........................0x0000 MkeyLeasePeriod:.................0 LocalPort:.......................1 LinkWidthEnabled:................1X or 4X LinkWidthSupported:..............1X or 4X LinkWidthActive:.................4X LinkSpeedSupported:..............2.5 Gbps or 5.0 Gbps LinkState:.......................Active PhysLinkState:...................LinkUp LinkDownDefState:................Polling ProtectBits:.....................0 LMC:.............................0 LinkSpeedActive:.................5.0 Gbps LinkSpeedEnabled:................2.5 Gbps or 5.0 Gbps Mellanox Technologies 64 WinOF VPI for Windows User Manual Rev 4.40 NeighborMTU:.....................2048 SMSL:............................0 VLCap:...........................VL0-7 InitType:........................0x00 VLHighLimit:.....................4 VLArbHighCap:....................8 VLArbLowCap:.....................8 InitReply:.......................0x00 MtuCap:..........................2048 VLStallCount:....................0 HoqLife:.........................31 OperVLs:.........................VL0-3 PartEnforceInb:..................0 PartEnforceOutb:.................0 FilterRawInb:....................0 FilterRawOutb:...................0 MkeyViolations:..................0 PkeyViolations:..................0 QkeyViolations:..................0 GuidCap:.........................128 ClientReregister:................0 SubnetTimeout:...................18 RespTimeVal:.....................16 LocalPhysErr:....................8 OverrunErr:......................8 MaxCreditHint:...................0 RoundTrip:.......................0 2. Query SwitchInfo by GUID. > smpquery -G switchinfo 0x000b8cffff004016 # Switch info: Lid 3 LinearFdbCap:....................49152 RandomFdbCap:....................0 McastFdbCap:.....................1024 LinearFdbTop:....................8 DefPort:.........................0 DefMcastPrimPort:................0 DefMcastNotPrimPort:.............0 LifeTime:........................18 StateChange:.....................0 LidsPerPort:.....................0 PartEnforceCap:..................32 InboundPartEnf:..................1 OutboundPartEnf:.................1 FilterRawInbound:................1 FilterRawOutbound:...............1 EnhancedPort0:...................0 3. Query NodeInfo by direct route. > smpquery -D nodeinfo 0 Mellanox Technologies 65 WinOF VPI for Windows User Manual Rev 4.40 # Node info: DR path slid 65535; dlid 65535; 0 BaseVers:........................1 ClassVers:.......................1 NodeType:........................Channel Adapter NumPorts:........................2 SystemGuid:......................0x0002c9030000103b Guid:............................0x0002c90300001038 PortGuid:........................0x0002c90300001039 PartCap:.........................128 DevId:...........................0x634a Revision:........................0x000000a0 LocalPort:.......................1 VendorId:........................0x0002c9 8.3.6 perfquery Queries InfiniBand ports’ performance and error counters. Optionally, it displays aggregated counters for all ports of a node. It can also reset counters after reading them or simply reset them. 8.3.6.1 perfquery Applicable Hardware All InfiniBand devices. 8.3.6.2 perfquery Synopsys perfquery [-h] [-d] [-G] [--xmtsl, -X] [--xmtdisc, -D] [--rcvsl, -S] [--rcverr, -E] [--smplctl, -c] [-a] [--Lid, -L] [--sm_port, -s <lid>] [--errors, -e] [--verbose, v] [--usage, -u][-l] [-r] [-C <ca_name>] [-P <ca_port>] [-R][-t <timeout_ms>] [-V] [<lid|guid> [[port][reset_mask]]] The table below lists the various flags of the command. Table 13 - perfquery Flags and Options Flag Description --help, -h Print the help menu --debug, -d Raise the IB debug level. May be used several times for higher debug levels (-ddd or -d -d -d) --Guid,-G Use GUID address argument. In most cases, it is the Port GUID. Example: ‘0x08f1040023’ --xmtsl, -X Show Xmt SL port counters --rcvsl, -S Show Rcv SL port counters --xmtdisc, -D Show Xmt Discard Details --rcverr, -E Show Rcv Error Details --smplctl, -c Show samples control --all_ports, -a Apply query to all ports Mellanox Technologies 66 WinOF VPI for Windows User Manual Rev 4.40 Table 13 - perfquery Flags and Options Flag Description --Lid, -L Use LID address argument --sm_port, -s <lid> SM port lid --errors, -e Show send and receive errors --verbose, -v Increase verbosity level --usage, -u Usage message --loop_ports, -l Loop ports --reset_after_read, -r Reset the counters after reading them --Ca, -C <ca_name> Use the specified channel adapter or router --Port, -P <ca_port> Use the specified port --Reset_only, -R Reset the counters --timeout, -t <timeout_ms> Override the default timeout for the solicited MADs [msec] --version, -V Show version info <lid | guid> [[port][reset_mask]] LID or GUID --extended, -x show extended port counters --extended_speeds, -T show port extended speeds counters --oprcvcounters show Rcv Counters per Op code --flowctlcounters show flow control counters --vloppackets show packets received per Op code per VL --vlopdata show data received per Op code per VL --vlxmitflowctlerrors show flow control update errors per VL --vlxmitcounters show ticks waiting to transmit counters per VL --swportvlcong show sw port VL congestion --rcvcc show Rcv congestion control counters --slrcvfecn show SL Rcv FECN counters --slrcvbecn show SL Rcv BECN counters --xmitcc show Xmit congestion control counters --vlxmittimecc show VL Xmit Time congestion control counters Mellanox Technologies 67 WinOF VPI for Windows User Manual Rev 4.40 Examples perfquery perfquery perfquery perfquery perfquery perfquery perfquery -r -e -R -e -R -R -R 32 1 # read performance counters and reset -r 32 1# read extended performance counters and reset 0x20 1 # reset performance counters of port 1 only -R 0x20 1# reset extended performance counters of port 1 only -a 32 # reset performance counters of all ports 32 2 0x0fff# reset only error counters of port 2 32 2 0xf000# reset only non-error counters of port 2 1. Read local port's performance counters. > perfquery # Port counters: Lid 6 port 1 PortSelect:......................1 CounterSelect:...................0x1000 SymbolErrors:....................0 LinkRecovers:....................0 LinkDowned:......................0 RcvErrors:.......................0 RcvRemotePhysErrors:.............0 RcvSwRelayErrors:................0 XmtDiscards:.....................0 XmtConstraintErrors:.............0 RcvConstraintErrors:.............0 LinkIntegrityErrors:.............0 ExcBufOverrunErrors:.............0 VL15Dropped:.....................0 XmtData:.........................55178210 RcvData:.........................55174680 XmtPkts:.........................766366 RcvPkts:.........................766315 2. Read performance counters from LID 2, all ports. > smpquery -a 2 # Port counters: Lid 2 port 255 PortSelect:......................255 CounterSelect:...................0x0100 SymbolErrors:....................65535 LinkRecovers:....................255 LinkDowned:......................16 RcvErrors:.......................657 RcvRemotePhysErrors:.............0 RcvSwRelayErrors:................70 XmtDiscards:.....................488 XmtConstraintErrors:.............0 RcvConstraintErrors:.............0 LinkIntegrityErrors:.............0 ExcBufOverrunErrors:.............0 VL15Dropped:.....................0 XmtData:.........................129840354 RcvData:.........................129529906 Mellanox Technologies 68 WinOF VPI for Windows User Manual Rev 4.40 XmtPkts:.........................1803332 RcvPkts:.........................1799018 3. Read then reset performance counters from LID 2, port 1. > perfquery -r 2 1 # Port counters: Lid 2 port 1 PortSelect:......................1 CounterSelect:...................0x0100 SymbolErrors:....................0 LinkRecovers:....................0 LinkDowned:......................0 RcvErrors:.......................0 RcvRemotePhysErrors:.............0 RcvSwRelayErrors:................0 XmtDiscards:.....................3 XmtConstraintErrors:.............0 RcvConstraintErrors:.............0 LinkIntegrityErrors:.............0 ExcBufOverrunErrors:.............0 VL15Dropped:.....................0 XmtData:.........................0 RcvData:.........................0 XmtPkts:.........................0 RcvPkts:.........................0 8.3.7 ibping ibping uses vendor MADs to validate connectivity between IB nodes. On exit, (IP) ping like output is shown. ibping is run as client/server, however the default is to run it as a client. Note also that in addition to ibping, a default server is implemented within the kernel. 8.3.7.1 ibping Synopsys ibping [-d(ebug)] [-e(rr_show)] [-v(erbose)] [-G(uid)] [-C ca_name] [-P ca_port] [-s smlid] [-t(imeout)timeout_ms] [-V(ersion)] [-L(id)][-u(sage)] [-c ping_count] [f(lood)] [-o oui] [-S(erver)] [-h(elp)] <dest lid | guid> 8.3.7.2 ibping Options The table below lists the various flags of the command. Table 14 - ibping Flags and Options Flag Description --count, -c <num> Stops after count packets -f, (--flood) Floods destination: send packets back to back without delay -o, (--oui) Uses specified OUI number to multiplex vendor mads --Server, -S Starts in server mode (do not return) --debug, -d/-ddd/ -d -d -d Raises the IB debugging level Mellanox Technologies 69 WinOF VPI for Windows User Manual Rev 4.40 Table 14 - ibping Flags and Options Flag 8.3.8 Description --errors, -e Shows send and receive errors (timeouts and others) --help, -h Shows the usage message --verbose, -v/-vvv/-v -v -v Increases the application verbosity level --version, -V Shows the version info --Lid, -L Use LID address argument --usage, -u Usage message --Guid, -G Uses GUID address argument. In most cases, it is the Port GUID. For example: "0x08f1040023" --sm_port, -s <smlid> Uses 'smlid' as the target lid for SM/SA queries --Ca, -C <ca_name> Uses the specified ca_name --Port, -P <ca_port> Uses the specified ca_port --timeout, -t <timeout_ms> Overrides the default timeout for the solicited mads ibnetdiscover ibnetdiscover performs IB subnet discovery and outputs a readable topology file. GUIDs, node types, and port numbers are displayed as well as port LIDs and NodeDescriptions. All nodes (and links) are displayed (full topology). Optionally, this utility can be used to list the current connected nodes by node-type. The output is printed to standard output unless a topology file is specified. 8.3.8.1 ibnetdiscover Synopsys ibnetdiscover [-d(ebug)] [-e(rr_show)] [-v(erbose)] [-s(how)] [-l(ist)] [g(rouping)] [-H(ca_list)][-S(witch_list)] [-R(outer_list)] [-C ca_name] [-P ca_port] [-t(imeout) timeout_ms] [-V(ersion)] [--outstanding_smps -o <val>] [u(sage)] [--node-name-map <node-name-map>] [--cache <filename>] [--load-cache <filename>] [-p(orts)] [-m(ax_hops)] [-h(elp)] [<topology-file>] 8.3.8.2 ibnetdiscover Options The table below lists the various flags of the command. Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax. Table 15 - ibnetdiscover Flags and Options Flag -l, --list Description Lists of connected nodes Mellanox Technologies 70 WinOF VPI for Windows User Manual Rev 4.40 Table 15 - ibnetdiscover Flags and Options Flag Description -g, --grouping Shows grouping. Grouping correlates InfiniBand nodes by different vendor specific schemes. It may also show the switch external ports correspondence. -H, --Hca_list Lists of connected CAs -S, --Switch_list Lists of connected switches -R, --Router_list Lists of connected routers -s, --show Shows progress information during discovery --node-name-map <node-namemap> Specifies a node name map. The node name map file maps GUIDs to more user friendly names. See “Topology File Format” on page 72. --cache <filename> Caches the ibnetdiscover network data in the specified filename. This cache may be used by other tools for later analysis --load-cache <filename> Loads and use the cached ibnetdiscover data stored in the specified filename. May be useful for outputting and learning about other fabrics or a previous state of a fabric --diff <filename> Loads cached ibnetdiscover data and do a diff comparison to the current network or another cache. A special diff output for ibnetdiscover output will be displayed showing differences between the old and current fabric. By default, the following are compared for differences: switches, channel adapters, routers, and port connections --diffcheck <key(s)> Specifies what diff checks should be done in the --diff option above. Comma separate multiple diff check key(s). The available diff checks are: sw = switches, ca = channel adapters, router = routers, port = port connections, lid = lids, nodedesc = node descriptions. Note that port, lid, and nodedesc are checked only for the node types that are specified (e.g. sw, ca, router). If port is specified alongside lid or nodedesc, remote port lids and node descriptions will also be compared -p, --ports Obtains a ports report which is a list of connected ports with relevant information (like LID, port-num, GUID, width, speed, and NodeDescription) -m, --max_hops Reports max hops discovered --debug, -d/-ddd/ -d -d -d Raises the IB debugging level --errors, -e Shows send and receive errors (timeouts and others) --help, -h Shows the usage message --verbose,-v/-vv/ -v -v -v Increases the application verbosity level --version, -V Shows the version info --outstanding_smps -o <val> Specifies the number of outstanding SMPs which should be issued during the scan Mellanox Technologies 71 WinOF VPI for Windows User Manual Rev 4.40 Table 15 - ibnetdiscover Flags and Options Flag Description -usage, -u Usages message --Ca, -C <ca_name> Uses the specified ca_name --Port, -P <ca_port> Uses the specified ca_port --timeout, -t <timeout_ms> Overrides the default timeout for the solicited mads --full, -f Shows full information (ports' speed and width) --show, -s Shows more information 8.3.8.3 Topology File Format The topology file format is largely intuitive. Most identifiers are given textual names like vendor ID (vendid), device ID (device ID), GUIDs of various types (sysimgguid, caguid, switchguid, etc.). PortGUIDs are shown in parentheses (). For switches, this is shown on the switchguid line. For CA and router ports, it is shown on the connectivity lines. The IB node is identified followed by the number of ports and the node GUID. On the right of this line is a comment (#) followed by the NodeDescription in quotes. If the node is a switch, this line also contains whether switch port 0 is base or enhanced, and the LID and LMC of port 0. Subsequent lines pertaining to this node show the connectivity. On the left is the port number of the current node. On the right is the peernode (node at other end of link). It is identified in quotes with nodetype followed by - followed by NodeGUID with the port number in square brackets. Further on the right is a comment (#). What follows the comment is dependent on the node type. If it is a switch node, it is followed by the NodeDescription in quotes and the LID of the peer node. If it is a CA or router node, it is followed by the local LID and LMC and then followed by the NodeDescription in quotes and the LID of the peer node. The active link width and speed are then appended to the end of this output line. Example # Topology file: generated on Tue Jun 5 14:15:10 2007 # # Max of 3 hops discovered # Initiated from node 0008f10403960558 port 0008f10403960559 Non-Chassis Nodes When grouping is used, InfiniBand nodes are organized into chasses which are numbered. Nodes which cannot be determined to be in a chassis are displayed as "Non-Chassis Nodes". External ports are also shown on the connectivity lines. vendid=0x8f1 devid=0x5a06 sysimgguid=0x5442ba00003000 switchguid=0x5442ba00003080(5442ba00003080) Switch 24 "S-005442ba00003080" # "ISR9024 Voltaire" base port 0 lid 6 lmc 0 [22] "H-0008f10403961354"[1](8f10403961355) # "MT23108 InfiniHost Mellanox Technologies" lid 4 4xSDR [10] "S-0008f10400410015"[1] # "SW-6IB4 Voltaire" lid 3 4xSDR Mellanox Technologies 72 WinOF VPI for Windows User Manual Rev 4.40 [8] "H-0008f10403960558"[2](8f1040396055a) # "MT23108 InfiniHost Mellanox Technologies" lid 14 4xSDR [6] "S-0008f10400410015"[3] # "SW-6IB4 Voltaire" lid 3 4xSDR [12] "H-0008f10403960558"[1](8f10403960559) # "MT23108 InfiniHost Mellanox Technologies" lid 10 4xSDR vendid=0x8f1 devid=0x5a05 switchguid=0x8f10400410015(8f10400410015) Switch 8 "S-0008f10400410015" # "SW-6IB4 Voltaire" base port 0 lid 3 lmc 0 [6] "H-0008f10403960984"[1](8f10403960985) # "MT23108 InfiniHost Mellanox Technologies" lid 16 4xSDR [4] "H-005442b100004900"[1](5442b100004901) # "MT23108 InfiniHost Mellanox Technologies" lid 12 4xSDR [1] "S-005442ba00003080"[10] # "ISR9024 Voltaire" lid 6 1xSDR [3] "S-005442ba00003080"[6] # "ISR9024 Voltaire" lid 6 4xSDR vendid=0x2c9 devid=0x5a44 caguid=0x8f10403960984 Ca 2 "H-0008f10403960984" # "MT23108 InfiniHost Mellanox Technologies" [1](8f10403960985) "S-0008f10400410015"[6] # lid 16 lmc 1 "SW-6IB4 Voltaire" lid 3 4xSDR vendid=0x2c9 devid=0x5a44 caguid=0x5442b100004900 Ca 2 "H-005442b100004900" # "MT23108 InfiniHost Mellanox Technologies" [1](5442b100004901) "S-0008f10400410015"[4] # lid 12 lmc 1 "SW-6IB4 Voltaire" lid 3 4xSDR vendid=0x2c9 devid=0x5a44 caguid=0x8f10403961354 Ca 2 "H-0008f10403961354" # "MT23108 InfiniHost Mellanox Technologies" [1](8f10403961355) "S-005442ba00003080"[22] # lid 4 lmc 1 "ISR9024 Voltaire" lid 6 4xSDR vendid=0x2c9 devid=0x5a44 caguid=0x8f10403960558 Ca 2 "H-0008f10403960558" # "MT23108 InfiniHost Mellanox Technologies" [2](8f1040396055a) "S-005442ba00003080"[8] # lid 14 lmc 1 "ISR9024 Voltaire" lid 6 4xSDR [1](8f10403960559) "S-005442ba00003080"[12] # lid 10 lmc 1 "ISR9024 Voltaire" lid 6 1xSDR Node Name Map File Format The node name map is used to specify user friendly names for nodes in the output. GUIDs are used to perform the lookup. # comment <guid> "<name>" Mellanox Technologies 73 WinOF VPI for Windows User Manual Rev 4.40 Example # IB1 # Line cards 0x0008f104003f125c 0x0008f104003f125d 0x0008f104003f10d2 0x0008f104003f10d3 0x0008f104003f10bf # Spines 0x0008f10400400e2d 0x0008f10400400e2e 0x0008f10400400e2f 0x0008f10400400e31 0x0008f10400400e32 # GUID Node Name 0x0008f10400411a08 0x0008f10400411a28 0x0008f10400411a34 0x0008f104004119d0 8.3.9 "IB1 "IB1 "IB1 "IB1 "IB1 (Rack (Rack (Rack (Rack (Rack 11 11 11 11 11 slot slot slot slot slot "IB1 "IB1 "IB1 "IB1 "IB1 (Rack (Rack (Rack (Rack (Rack 11 11 11 11 11 spine spine spine spine spine "SW1 "SW2 "SW3 "SW4 (Rack (Rack (Rack (Rack 3) 3) 3) 3) 1 1 2 2 12 1 1 1 2 2 ISR9024 ISR9024 ISR9024 ISR9024 ) ) ) ) ) ISR9288/ISR9096 ISR9288/ISR9096 ISR9288/ISR9096 ISR9288/ISR9096 ISR9288/ISR9096 ) ) ) ) ) ISR9288 ISR9288 ISR9288 ISR9288 ISR9288 Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire Voltaire sLB-24D" sLB-24D" sLB-24D" sLB-24D" sLB-24D" sFB-12D" sFB-12D" sFB-12D" sFB-12D" sFB-12D" 9024D" 9024D" 9024D" 9024D" ibtracert ibtracert uses SMPs to trace the path from a source GID/LID to a destination GID/LID. Each hop along the path is displayed until the destination is reached or a hop does not respond. By using the -m option, multicast path tracing can be performed between source and destination nodes. 8.3.9.1 ibtracert Synopsys ibtracert [-d(ebug)] [-v(erbose)] [-D(irect)] [-L(id)] [-e(rrors)] [-u(sage)] [G(uids)] [-f(orce)] [-n(o_info)] [-m mlid] [-s smlid] [-C ca_name][-P ca_port] [t(imeout) timeout_ms] [-V(ersion)] [--node-name--map <node-name-map>] [-h(elp)] [<dest dr_path|lid|guid> [<startlid> [<endlid>]] 8.3.9.2 ibtracert Options The table below lists the various flags of the command. Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax. Table 16 - ibtracert Flags and Options Flag Description --force, -f Force -n, --no_info Simple format; do not show additional information --mlid, -m <mlid> Shows the multicast trace of the specified mlid --node-name-map <node-namemap> Specifies a node name map. The node name map file maps GUIDs to more user friendly names. See “Topology File Format” on page 72. --debug, -d/-ddd/-d -d -d Raises the IB debugging level Mellanox Technologies 74 WinOF VPI for Windows User Manual Rev 4.40 Table 16 - ibtracert Flags and Options Flag Description --Lid, -L Uses LID address argument --errors, -e Shows send and receive errors --usage, -u Usage message --Guid, -G Uses GUID address argument. In most cases, it is the Port GUID. Example: "0x08f1040023" --sm_port, -s <smlid> Uses 'smlid' as the target lid for SM/SA queries --help, -h Shows the usage message -verbose, -v/-vv/-v -v -v Increases the application verbosity level --version, -V Shows the version info --Ca, -C <ca_name> Uses the specified ca_name --Port, -P <ca_port> Uses the specified ca_port --timeout, -t <timeout_ms> Overrides the default timeout for the solicited mads Examples • Unicast examples ibtracert 4 16 # show path between lids 4 and 16 ibtracert -n 4 16 # same, but using simple output format ibtracert -G 0x8f1040396522d 0x002c9000100d051 # use guid addresses • Multicast example ibtracert -m 0xc000 4 16 16 # show multicast path of mlid 0xc000 between lids 4 and 8.3.10 sminfo Optionally sets and displays the output of a sminfo query in a readable format. The target SM is the one listed in the local port info, or the SM specified by the optional SM lid or by the SM direct routed path. Using sminfo for any purposes other then simple query may result in a malfunction of the target SM. Mellanox Technologies 75 WinOF VPI for Windows User Manual Rev 4.40 8.3.10.1 sminfo Synopsys sminfo [-d(ebug)] [-e(rr_show)] [-s state] [-p prio] [-a activity] [-D(irect)] [-L(id)] [-u(sage)] [-G(uid)] [-C ca_name] [-P ca_port] [-t(imeout) timeout_ms] [V(ersion)] [-h(elp)] sm_lid | sm_dr_path [modifier] 8.3.10.2 sminfo Options The table below lists the various flags of the command. Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax.. Table 17 - sminfo Flags and Options Flag --state, -s Description Sets SM state: • • • • 0 - not active 1 - discovering 2 - standby 3 - master --priority, -p Sets priority (0-15) --activity, -a Sets activity count --debug, -d/-ddd/-d -d -d Raises the IB debugging level --Direct, -D Uses directed path address arguments. The path is a comma separated list of out ports. Examples: • • "0" # self port "0,1,2,1,4" # out via port 1, then 2, ... --Lid, -L Uses LID address argument --usage, -u Usage message --errors, -e Shows send and receive errors (timeouts and others) --Guid, -G Uses GUID address argument. In most cases, it is the Port GUID. Example: "0x08f1040023" --help, -h Shows the usage message -verbose, -v/-vv/-v -v -v Increases the application verbosity level --version, -V Shows the version info --Ca, -C <ca_name> Uses the specified ca_name --Port, -P <ca_port> Uses the specified ca_port --timeout, -t <timeout_ms> Overrides the default timeout for the solicited mads Mellanox Technologies 76 WinOF VPI for Windows User Manual Rev 4.40 Examples sminfo # local ports sminfo sminfo 32 # show sminfo of lid 32 sminfo -G 0x8f1040023 # same but using guid address 8.3.11 ibclearerrors ibclearerrors is a script which clears the PMA error counters in PortCounters by either waking the InfiniBand subnet topology or using an already saved topology file. 8.3.11.1 ibclearerrors Synopsys ibclearerrors [-h] [-N | -nocolor] [<topology-file> | -C ca_name -P ca_port -t(imeout) timeout_ms] 8.3.11.2 ibclearerrors Options The table below lists the various flags of the command. Table 18 - ibclearerrors Flags and Options Flag Description -C <ca_name> Use the specified ca_name -P <ca_port> Use the specified ca_port -t <timeout_ms> Override the default timeout for the solicited mads 8.3.12 ibstat ibstat is a binary which displays basic information obtained from the local IB driver. Output includes LID, SMLID, port state, link width active, and port physical state. 8.3.12.1 ibstat Synopsys ibstat [-d(ebug)] [-l(ist_of_cas)] [-s(hort)] [-p(ort_list)] [-V(ersion)] [-h] <ca_name> [portnum] 8.3.12.2 ibstat Options The table below lists the various flags of the command. Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax.. Table 19 - ibstat Flags and Options Flag Description -l, --list_of_cas List all IB devices -s, --short Short output -p, --port_list Show port list Mellanox Technologies 77 WinOF VPI for Windows User Manual Rev 4.40 Table 19 - ibstat Flags and Options Flag Description ca_name InfiniBand device name portnum Port number of InfiniBand device --debug, -d/-ddd/-d -d -d Raise the IB debugging level --help, -h Show the usage message -verbose, -v/-vv/-v -v -v Increase the application verbosity level --version, -V Show the version info --usage, -u usage message Examples ibstat ibstat -l ibstat -p ibstat mthca0 2 # # # # display status of all ports on all IB devices list all IB devices show port guids show status of port 2 of 'mthca0' 8.3.13 vstat vstat is a binary which displays information on the HCA attributes. • vstat synopsys is vstat [-v] [-c] [-m] [-p N] 8.3.13.1 vstat Options The table below lists the various flags of the command.. Table 20 - vstat Flags and Options Flag Description -v Verbose mode -c HCA error/statistic counters -m more verbose mode -p N repeat every N sec 8.3.14 osmtest osmtest is a test program to validate InfiniBand subnet manager and administration (SM/SA). Default is to run all flows with the exception of the QoS flow. osmtest provides a test suite for opensm. osmtest has the following capabilities and testing flows: • It creates an inventory file of all available Nodes, Ports, and PathRecords, including all their fields. Mellanox Technologies 78 WinOF VPI for Windows User Manual Rev 4.40 • It verifies the existing inventory, with all the object fields, and matches it to a presaved one. • A Multicast Compliancy test. • An Event Forwarding test. • A Service Record registration test. • An RMPP stress test. • A Small SA Queries stress test. It is recommended that after installing opensm, the user should run "osmtest -f c" to generate the inventory file, and immediately afterwards run "osmtest -f a" to test OpenSM. Additionally, it is recommended to create the inventory when the IB fabric is stable, and occasionally run "osmtest -v" to verify that nothing has changed. 8.3.14.1 osmtest Synopsys osmtest [-f(low) <c|a|v|s|e|f|m|q|t>] [-w(ait) <trap_wait_time>] [-d(ebug) <number>] [-m(ax_lid) <LID in hex>] [-g(uid)[=]<GUID in hex>] [-p(ort)] [-i(nventory) <filename>] [-s(tress)] [-M(ulticast_Mode)] [-t(imeout) <milliseconds>] [-l | -log_file] [-v] [-vf <flags>] [-h(elp)] 8.3.14.2 osmtest Options The table below lists the various flags of the command. Table 21 - osmtest Flags and Options Flag -f, --flow Description This option directs osmtest to run a specific flow. The following is the flow’s description: • • • • • • • • • c = create an inventory file with all nodes, ports and paths a = run all validation tests (expecting an input inventory) v = only validate the given inventory file s = run service registration, deregistration, and lease test e = run event forwarding test f = flood the SA with queries according to the stress mode m = multicast flow q = QoS info: dump VLArb and SLtoVL tables t = run trap 64/65 flow (this flow requires running of external tool, default is all flows except QoS) -w, --wait This option specifies the wait time for trap 64/65 in seconds It is used only when running -f t - the trap 64/65 flow (default to 10 sec) -d, --debug This option specifies a debug option. These options are not normally needed. The number following -d selects the debug option to enable as follows: OPT Description --- -----------------d0 - Ignore other SM nodes -d1 - Force single threaded dispatching -d2 - Force log flushing after each log message -d3 - Disable multicast support Mellanox Technologies 79 WinOF VPI for Windows User Manual Rev 4.40 Table 21 - osmtest Flags and Options Flag Description -m, --max_lid This option specifies the maximal LID number to be searched for during inventory file build (default to 100) -g, --guid This option specifies the local port GUID value with which OpenSM should bind. OpenSM may be bound to 1 port at a time. If GUID given is 0, OpenSM displays a list of possible port GUIDs and waits for user input. Without -g, OpenSM trys to use the default port -p, --port This option displays a menu of possible local port GUID values with which osmtest could bind -i, --inventory This option specifies the name of the inventory file Normally, osmtest expects to find an inventory file, which osmtest uses to validate realtime information received from the SA during testing If -i is not specified, osmtest defaults to the file osmtest.dat See -c option for related information -s, --stress This option runs the specified stress test instead of the normal test suite Stress test options are as follows: OPT Description --- -----------------s1 - Single-MAD (RMPP) response SA queries -s2 - Multi-MAD (RMPP) response SA queries -s3 - Multi-MAD (RMPP) Path Record SA queries -s4 - Single-MAD (non RMPP) get Path Record SA queries Without -s, stress testing is not performed -M, --Multicast_Mode This option specify length of Multicast test: OPT Description --- -----------------M1 - Short Multicast Flow (default) - single mode -M2 - Short Multicast Flow - multiple mode -M3 - Long Multicast Flow - single mode -M4 - Long Multicast Flow - multiple mode • • Single mode - Osmtest is tested alone, with no other apps that interact with OpenSM MC Multiple mode - Could be run with other apps using MC with OpenSM. Without -M, default flow testing is performed -t This option specifies the time in milliseconds used for transaction timeouts. Specifying -t 0 disables timeouts. Without -t, OpenSM defaults to a timeout value of 200 milliseconds. -l, --log_file This option defines the log to be the given file. By default the log goes to stdout. -v This option increases the log verbosity level. The -v option may be specified multiple times to further increase the verbosity level. See the -vf option for more information about. log verbosity. -V This option sets the maximum verbosity level and forces log flushing. The -V is equivalent to '-vf0xFF -d 2'. See the -vf option for more information about. log verbosity. Mellanox Technologies 80 WinOF VPI for Windows User Manual Rev 4.40 Table 21 - osmtest Flags and Options Flag Description -vf This option sets the log verbosity level. A flags field must follow the -D option. A bit set/clear in the flags enables/disables a specific log level as follows: BIT LOG LEVEL ENABLED ---- ----------------0x01 - ERROR (error messages) 0x02 - INFO (basic messages, low volume) 0x04 - VERBOSE (interesting stuff, moderate volume) 0x08 - DEBUG (diagnostic, high volume) 0x10 - FUNCS (function entry/exit, very high volume) 0x20 - FRAMES (dumps all SMP and GMP frames) 0x40 - ROUTING (dump FDB routing information) 0x80 - currently unused. Without -vf, osmtest defaults to ERROR + INFO (0x3) Specifying -vf 0 disables all messages Specifying -vf 0xFF enables all messages (see -V) High verbosity levels may require increasing the transaction timeout with the -t option -h, --help Display this usage info then exit. 8.3.15 ibaddr Displays the lid (and range) as well as the GID address of the port specified (by DR path, lid, or GUID) or the local port by default. This utility can be used as simple address resolver. 8.3.15.1 ibaddr Synopsis ibaddr [-d(ebug)] [-D(irect)] [-G(uid)] [-l(id_show)] [-g(id_show)] [-C ca_name] [-P ca_port] [-t(imeout) timeout_ms] [-V(ersion)] [-h(elp)] [<lid | dr_path | guid>] 8.3.15.2 ibaddr Options Table 22 - ibaddr Flags and Options Flags Description -G, --Guid shows lid range and gid for GUID address -l, --lid_show shows lid range only -L, --Lid_show shows lid range (in decimal) only -g, --gid_show shows gid address only Mellanox Technologies 81 WinOF VPI for Windows User Manual Rev 4.40 Table 22 - ibaddr Flags and Options Flags Description Debugging Flags Description NOTE: Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax. -d Raises the IB debugging level. Can be used several times (-ddd or -d -d -d). -e shows send and receive errors (timeouts and others) -h shows the usage message -v Increases the application verbosity level. Can be used several times (-vv or -v -v -v) -v shows the version info. Addressing Flags Description -D Uses directed path address arguments. The path is a comma separated list of out ports. Examples: "0" # self port "0,1,2,1,4" # out via port 1, then 2, ... -G Uses GUID address argument. In most cases, it is the Port GUID. Example: "0x08f1040023" -s <smlid> Uses ’smlid’ as the target lid for SM/SA queries. Other Common Flags Description -C <ca_name> Uses the specified ca_name. -P <ca_port> Uses the specified ca_port. -t <timeout_ms> Overrides the default timeout for the solicited mads. 8.3.15.3 Multiple CA/Multiple Port Support When no IB device or port is specified, the port to use is selected by the following criteria: 1. The first port that is ACTIVE. 2. If not found, the first port that is UP (physical link up). If a port and/or CA name is specified, the user request is attempted to be fulfilled, and will fail if it is not possible. Mellanox Technologies 82 WinOF VPI for Windows User Manual Rev 4.40 Examples ibaddr ibaddr ibaddr ibaddr ibaddr ibaddr 32 -G -l -L -g 0x8f1040023 32 # 32 # 32 # # local port´s address # show lid range and gid of lid 32 # same but using guid address show lid range only show decimal lid range only show gid address only 8.3.16 ibcacheedit ibcacheedit allows users to edit an ibnetdiscover cache created through the --cache option in ibnetdiscover(8). 8.3.16.1 ibcacheedit Synopsis ibcacheedit [--switchguid BEFOREGUID:AFTERGUID] [--caguid BEFORE:AFTER] [--sysimgguid BEFOREGUID:AFTERGUID] guid NODEGUID:BEFOREGUID:AFTERGUID] [-h(elp)] <orig.cache> <new.cache> [--port- 8.3.16.2 ibcacheedit Options Table 23 - ibcacheedit Flags and Options Flags Description --switchguid BEFOREGUID:AFTERGUID Specifies a switchguid that should be changed. The before and after guid should be separated by a colon. On switches, port guids are identical to the switch guid, so port guids will be adjusted as well on switches. --caguid BEFOREGUID:AFTERGUID Specifies a caguid that should be changed. The before and after guid should be separated by a colon. --sysimgguid BEFOREGUID:AFTERGUID Specifies a sysimgguid that should be changed. The before and after guid should be spearated by a colon. --portguid NODEGUID:BEFOREGUID:AFTERGUID Specifies a portguid that should be changed. The nodeguid of the port (e.g. switchguid or caguid) should be specified first, followed by a colon, the before port guid, another colon, then the after port guid.On switches, port guids are identical to the switch guid, so the switch guid will be adjusted as well on switches. Debugging Flags Description NOTE: Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax. -h shows the usage message -v shows the version info. Mellanox Technologies 83 WinOF VPI for Windows User Manual Rev 4.40 8.3.17 iblinkinfo iblinkinfo reports link info for each port in an IB fabric, node by node. Optionally, iblinkinfo can do partial scans and limit its output to parts of a fabric. 8.3.17.1 iblinkinfo Synopsis [-hcdl -C <ca_name> -P <ca_port> -p -S <port_guid> -G <port_guid> -D <direct_route> --load-cache <filename>] 8.3.17.2 iblinkinfo Flags and Options Table 24 - iblinkinfo Flags and Options Flags Description -S <port_guid> -G <port_guid> --port-guid Starts partial scan at the port specified by <port_guid> (hex format) -D <direct_route> Starts partial scan at the port specified by the direct route path. -l Prints all information for each link on one line. Defaultis to print aheaderwith the node information and then a list for each port (useful for grep´ing output). -d Prints only nodes which have a port in the "Down" state. -p Prints additional port settings (<LifeTime>,<HoqLife>,<VLStall-Count>) -C <ca_name> Uses the specified ca_name for the search. -P <ca_port> Uses the specified ca_port for the search. -R (This option is obsolete and does nothing) --load-cache <filename> Loads and use the cached ibnetdiscover data stored in the speci-fied filename. May be useful for outputting and learning about other fabrics or a previous state of a fabric.Cannot be used if user specifies a direct route path. See ibnetdiscover for information on caching ibnetdiscover output. --diff <filename> Loads cached ibnetdiscover data and do a diff comparison to the current network or another cache. A special diff output for iblinkinfo output will be displayed showing differences between the old and current fabric links. Be default, the following are comparedfor differences: port connections and port state. See ibnetdiscover for information on caching ibnetdiscover output. Mellanox Technologies 84 WinOF VPI for Windows User Manual Rev 4.40 Table 24 - iblinkinfo Flags and Options Flags Description --diffcheck <key(s)> Specifies what diff checks should be done in the--diffoption above. Comma separate multiple diff check key(s). The available diff checks are:port = port connections,state = port state, lid = lids, nodedesc = node descriptions. If port is specified alongside lid or nodedesc, remote port lids and node descriptions will also be compared. --filterdownports <filename> Filters downports indicated in a ibnetdiscover cache. If a port was previously indicated as down in the specified cache, and is still down, donot output it in the resulting output. This option may be particularly useful for environments where switchesare not fully populated, thus much of the default iblinkinfo info is considered un-useful. See ibnetdiscover for information on caching ibnetdiscover output. 8.3.18 ibqueryerrors The default behavior is to report the port error counters which exceed a threshold for each port in the fabric. The default threshold is zero (0). Error fields can also be suppressed entirely. In addition to reporting errors on every port. ibqueryerrors can report the port transmit and receive data as well as report full link information to the remote port if available. 8.3.18.1 ibqueryerrors Synopsis ibqueryerrors [options] 8.3.18.2 ibqueryerrors Options Table 25 - ibqueryerrors Flags and Options Flags Description -s <err1,err2,...> Suppresses the errors listed in the comma separated list provided. -c Suppresses some of the common "side effect" counters. These counters usually do not indicate an error condition and can be usually be safely ignored. -G <port_guid> -S <port_guid> --portguid Report results for the port specified. For switches results are printed for all ports not just switch port 0. -S same as "-G" Provided only for backward compatibility -D <direct_route> Reports results for the port specified. For switches results are printed for all ports not just switch port 0. Mellanox Technologies 85 WinOF VPI for Windows User Manual Rev 4.40 Table 25 - ibqueryerrors Flags and Options Flags Description -r Reports the port information. This includes LID, port, external port (if applicable), link speed setting, remote GUID, remote port, remote external port (if applicable), and remote node description information. --data Includes the optional transmit and receive data counters. --threshold-file Specifies an alternate threshold file. The default is: /opt/ufm/files/conf/infiniband-diags/error_thresholds --switch Prints data for switches only. --ca Prints data for CA’s only. --router Prints data for routers only --clear-errors-k Clear error counters after read. -k and -K can be used together to clear both errors and counters. --clear-counts -K Clear data counters after read. CAUTION: clearing data counters will occur regardless of if they are printed or not. This is because data counters are only printed on ports which have errors. This means if a port has 0 errors and the -K option is specified the data counters will be cleared without any printed output. -details Includes receive error and transmits discard details --load-cache <filename> Loads and uses the cached ibnetdiscover data stored in the specified filename. May be useful for outputting and learning about other fabrics or a previous state of a fabric. Cannot be used if user specifies a direct route path. See ibnetdiscover for information on caching ibnetdiscover output. -R This option is obsolete (and has no effect). -d Raises the IB debugging level. May be used several times (ddd or -d -d -d). -e Shows send and receive errors (time-outs and others) -h Shows the usage message -v Increases the application verbosity level. May be used several times (-vv or -v -v -v) -C <ca_name> Uses the specified ca_name. -P <ca_port> Uses the specified ca_port. Mellanox Technologies 86 WinOF VPI for Windows User Manual Rev 4.40 Table 25 - ibqueryerrors Flags and Options Flags -t <timeout_ms> Description Overrides the default timeout for the solicited mads. 8.3.18.3 ibqueryerrors Exit Status If a failure to scan the fabric occurs return -1. If the scan succeeds without errors beyond thresholds return 0. If errors are found on ports beyond thresholds return 1. 8.3.18.4 ibqueryerrors Files /opt/ufm/files/conf/infiniband-diags/error_thresholds Define threshold values for errors. File format is simple "name=val". Comments begin with ’#’ Example: # Define thresholds for error counters SymbolErrorCounter=10 LinkErrorRecoveryCounter=10 VL15Dropped=100 8.3.19 ibsysstat ibsysstat uses vendor MADs to validate connectivity between InfiniBand nodes and obtain other information about the InfiniBand node.ibsysstat is run as client/server. Default is to run as client. 8.3.19.1ibsysstat Synopsis ibsysstat [-d(ebug)] [-e(rr_show)] [-v(erbose)] [-G(uid)] [-C ca_name] [-P ca_port] [-s smlid] [-t(imeout) timeout_ms] [-V(ersion)] [-o oui] [-S(erver)] [-h(elp)] <dest lid | guid> [<op>] 8.3.19.2 ibsysstat Options Table 26 - ibsysstat Flags and Options Flags Description ping Verifies connectivity to server (default) host Obtains host information from server cpu Obtains cpu information from server -o, --oui Uses specified OUI number to multiplex vendor mads -S, --Server Starts in server mode (do not return) Debugging Flags Description Mellanox Technologies 87 WinOF VPI for Windows User Manual Rev 4.40 Table 26 - ibsysstat Flags and Options Flags Description NOTE: Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax. -d Raises the IB debugging level. Can be used several times (-ddd or -d -d -d). -e Shows send and receive errors (timeouts and others) -h Shows the usage message -v Increases the application verbosity level. Can be used several times (-vv or -v -v -v). -v Shows the version info. Addressing Flags Description -G Uses GUID address argument. In most cases, it is the Port GUID. Example: "0x08f1040023" -s <smlid> Uses ’smlid’ as the target lid for SM/SA queries. Other Common Flags Description -C <ca_name> Uses the specified ca_name. -P <ca_port> Uses the specified ca_port. -t <timeout_ms> Overrides the default timeout for the solicited mads. 8.3.19.3 Multiple CA/Multiple Port Support When no IB device or port is specified, the port to use is selected by the following criteria: 1. The first port that is ACTIVE. 2. If not found, the first port that is UP (physical link up). If a port and/or CA name is specified, the user request is attempted to be fulfilled, and will fail if it is not possible. 8.3.20 perfquery perfquery usesPerfMgt GMPs to obtain the PortCounters (basic performance and error counters), PortExtendedCounters, PortXmitDataSL, PortR-cvDataSL, PortRcvErrorDetails,PortXmitDiscardDetails, PortExtended- SpeedsCounters, or PortSamplesControl from the PMA at the node/port specified. Optionally shows aggregated counters for all ports of node. In addition, you may reset after read, or only reset counters. Mellanox Technologies 88 WinOF VPI for Windows User Manual Rev 4.40 • In PortCounters, PortCountersExtended, PortXmitDataSL, and PortR-cvDataSL, components that represent Data (e.g. PortXmitData and PortR- cvData) indicate octets divided by 4 rather than just octets. • Inputting a port of 255 indicates an operation be performed on all ports. 8.3.20.1 perfquery Synopsis perfquery [-d(ebug)] [-G(uid)] [-x|--extended] [-X|--xmtsl] [-S|--rcvsl] [-D|--xmtdisc] [-E|--rcverr] [-T|--extended_speeds][--oprcvcounters] [--flowctlcounters] [--vloppackets] [--vlopdata] [--vlxmitflowctlerrors] [--vlxmitcounters] [--swportvlcong] [--rcvcc] [--slrcvfecn] [--slrcvbecn] [--xmitcc] [--vlxmittimecc] [-c|--smplctl] [-a(ll_ports)] [-l(oop_ports)] [-r(eset_after_read)] [-R(eset_only)] [-C ca_name] [-P ca_port] [-t(imeout) timeout_ms] [-V(ersion)] [-h(elp)] [<lid|guid> [[port] [reset_mask]]] 8.3.20.2 Multiple CA/Multiple Port Support When no InfiniBand device or port is specified, the port to use is selected by the following criteria: 1. The first port that is ACTIVE. 2. If not found, the first port that is UP (physical link up). If a port and/or CA name is specified, the user request is attempted to be fulfilled, and will fail if it is not possible. 8.3.21 saquery saquery issues the selected SA query. Node records are queried by default. 8.3.21.1 saquery Synopsis saquery [-h] [-d] [-p] [-N] [--list | -D] [-S] [-I] [-L] [-l] [-G] [-O] [-U] [-c] [-s] [-g] [-m] [-x] [-C ca_name] [-P ca_port][--smkey val] [-t(imeout) <msec>] [--src-to-dst <src:dst>] [--sgid-to-dgid <sgid-dgid>] [--node-name-map <node-name-map>] [<name> | <lid> | <guid>] Mellanox Technologies 89 WinOF VPI for Windows User Manual Rev 4.40 8.3.21.2 saquery Options Table 27 - saquery Flags and Options Flags Description -p Gets PathRecord info. -N Gets NodeRecord info. --list | -D Gets NodeDescriptions of CAs only. -S Gets ServiceRecord info. -I Gets InformInfoRecord (subscription) info. -L Returns the Lids of the name specified -l Returns the unique Lid of the name specified -G Returns the Guids of the name specified -O Returns the name for the Lid specified -U Returns the name for the Guid specified -C Gets the SA’s class port info -s Returns the PortInfoRecords with isSM or isSMdisabled capability mask bit on. -g Gets multicast group info -m Gets multicast member info. If a group is specified, limit the output to the group specified and print one line containing only the GUID and node description for each entry. Example: saquery -m 0xc000 -x Gets LinkRecord info. --src-to-dst Gets a PathRecord for <src:dst> where src and dst are either node names or LIDs. --sgid-to-dgid Gets a PathRecord for sgid to dgid where both GIDs are in an IPv6 format acceptable to inet_pton(3). -C <ca_name> Uses the specified ca_name. -P <ca_port> Uses the specified ca_port. --smkey <val> Uses SM_Key value for the query. Will be used only with "trusted" queries. If nonnumeric value (like’x’) is specified then saquery will prompt for a value. Mellanox Technologies 90 WinOF VPI for Windows User Manual Rev 4.40 Table 27 - saquery Flags and Options Flags Description -t, -timeout <msec> Specifies SA query response timeout in milliseconds. Default is 100 milliseconds. You may want to use this option if IB_TIMEOUT is indicated. --node-name-map <node-name-map> Specifies a node name map.The node name map file maps GUIDs to more user friendly names. See ibnetdiscover(8) for node name map file format.Only used with the -O and -U options. • Supported query names (and aliases): ClassPortInfo (CPI) NodeRecord (NR) [lid] PortInfoRecord (PIR) [[lid]/[port]/ [options]] SL2VLTableRecord (SL2VL) [[lid]/ [in_port]/[out_port]] PKeyTableRecord (PKTR) [[lid]/[port]/ [block]] VLArbitrationTableRecord (VLAR) [[lid]/[port]/[block]] InformInfoRecord (IIR) LinkRecord (LR) [[from_lid]/ [from_port]] [[to_lid]/[to_port]] ServiceRecord (SR) PathRecord (PR) MCMemberRecord (MCMR) LFTRecord (LFTR) [[lid]/[block]] MFTRecord (MFTR) [[mlid]/ [position]/[block]] GUIDInfoRecord (GIR) [[lid]/[block]] -d enables debugging. -h Shows help. 8.3.22 smpdump smpdump is a general purpose SMP utility which gets SM attributes from a specified SMA. The result is dumped in hex by default. 8.3.22.1 smpdump Synopsis smpdump [-s(ring)] [-D(irect)] [-C ca_name] [-P ca_port] [t(imeout) timeout_ms] [-V(ersion)] [-h(elp)] <dlid|dr_path> <attr> [mod] Mellanox Technologies 91 WinOF VPI for Windows User Manual Rev 4.40 8.3.22.2 smpdump Options Table 28 - smpdump Flags and Options Flags Description attr IBA attribute ID for SM attribute mod IBA modifier for SM attribute Debugging Flags Description NOTE: Most OpenIB diagnostics take the following common flags. The exact list of supported flags per utility can be found in the usage message and can be shown using the util_name -h syntax. -d Raises the IB debugging level. Can be used several times (-ddd or -d -d -d). -e Shows send and receive errors (timeouts and others) -h Shows the usage message -v Increases the application verbosity level. Can be used several times (-vv or -v -v -v) -V Shows the version info. Addressing Flags Description -D Uses directed path address arguments. The path is a comma separated list of out ports. Examples: "0" # self port "0,1,2,1,4" # out via port 1, then 2, ... -G Uses GUID address argument. In most cases, it is the Port GUID. Example: "0x08f1040023" -s <smlid> Uses ’smlid’ as the target lid for SM/SA queries. Flags Description -C <ca_name> Uses the specified ca_name. -P <ca_port> Uses the specified ca_port. -t <timeout_ms> Overrides the default timeout for the solicited mads. 8.3.22.3 Multiple CA/Multiple Port Support When no IB device or port is specified, the port to use is selected by the following criteria: 1. The first port that is ACTIVE. 2. If not found, the first port that is UP (physical link up). If a port and/or CA name is specified, the user request is attempted to be fulfilled, and will fail if it is not possible. Mellanox Technologies 92 WinOF VPI for Windows User Manual Rev 4.40 Examples Direct Routed Examples: smpdump -D 0,1,2,3,5 16 # NODE DESC smpdump -D 0,1,2 0x15 2 # PORT INFO, port 2 LID Routed Examples: smpdump 3 0x15 2 smpdump 0xa0 0x11 8.4 # PORT INFO, lid 3 port 2 # NODE INFO, lid 0xa0 InfiniBand Fabric Performance Utilities The performance utilities described in this chapter are intended to be used as a performance micro-benchmark. 8.4.1 ib_read_bw ib_read_bw calculates the BW of RDMA read between a pair of machines. One acts as a server and the other as a client. The client RDMA reads the server memory and calculate the BW by sampling the CPU each time it receive a successful completion. The test supports features such as Bidirectional, in which they both RDMA read from each other memory's at the same time, change of mtu size, tx size, number of iteration, message size and more. Read is available only in RC connection mode (as specified in IB spec). 8.4.1.1 ib_read_bw Synopsys ib_read_bw [-i(b_port) ib_port] [-m(tu) mtu_size] [-s(ize) message_size] [-n iteration_num] [-p(ort) PDT_port] [-b(idirectional)] [-o(uts) outstanding reads] [a(ll)] [-V(ersion)] 8.4.1.2 ib_read_bw Options The table below lists the various flags of the command. Table 29 - ib_read_bw Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -o, --outs=<num> The number of outstanding read/atom(default 4) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) Mellanox Technologies 93 WinOF VPI for Windows User Manual Rev 4.40 Table 29 - ib_read_bw Flags and Options Flag 8.4.2 Description -b, --bidirectional Measures bidirectional bandwidth (default unidirectional) -V, --version Displays version number -g, --grh Use GRH with packets (mandatory for RoCE) ib_read_lat ib_read_lat calculates the latency of RDMA read operation of message_sizeB between a pair of machines. One acts as a server and the other as a client. They perform a ping pong benchmark on which one side RDMA reads the memory of the other side only after the other side have read his memory. Each of the sides samples the CPU clock each time they read the other side memory , in order to calculate latency. Read is availible only in RC connection mode (as specified in IB spec). 8.4.2.1 ib_read_lat Synopsys ib_read_lat [-i(b_port) ib_port] [-m(tu) mtu_size] [-s(ize) message_size] [-t(xdepth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-o(uts) outstanding reads] [a(ll)] [-V(ersion)] [-C report cycles] [-H report histogram] [-U report unsorted] 8.4.2.2 ib_read_lat Options The table below lists the various flags of the command. Table 30 - ib_read_lat Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -o, --outs=<num> The number of outstanding read/atom(default 4) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -C, --report-cycles Reports times in cpu cycle units (default microseconds) -H, --report-histogram Print out all results (default print summary only) -U, --report-unsorted (implies H) Print out unsorted results (default sorted) -V, --version Displays version number Mellanox Technologies 94 WinOF VPI for Windows User Manual Rev 4.40 Table 30 - ib_read_lat Flags and Options Flag -g, --grh 8.4.3 Description Use GRH with packets (mandatory for RoCE) ib_send_bw ib_send_bw calculates the BW of SEND between a pair of machines. One acts as a server and the other as a client. The server receive packets from the client and they both calculate the throughput of the operation. The test supports features such as Bidirectional, on which they both send and receive at the same time, change of mtu size, tx size, number of iteration, message size and more. Using the "-a" provides results for all message sizes. 8.4.3.1 ib_send_bw Synopsys ib_send_bw [-i(b_port) ib_port] [-c(onnection_type) RC\UC\UD] [-m(tu) mtu_size] [s(ize) message_size] [-t(x-depth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-b(idirectional)] [-a(ll)] [-V(ersion)] 8.4.3.2 ib_send_bw Options The table below lists the various flags of the command. Table 31 - ib_send_bw Flags and Options Flag 8.4.4 Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC/UD> Connection type RC/UC/UD (default RC) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -b, --bidirectional Measures bidirectional bandwidth (default unidirectional) -V, --version Displays version number -g, --grh Use GRH with packets (mandatory for RoCE) ib_send_lat ib_send_lat calculates the latency of sending a packet in message_sizeB between a pair of machines. One acts as a server and the other as a client. They perform a ping pong benchmark on Mellanox Technologies 95 WinOF VPI for Windows User Manual Rev 4.40 which you send packet only if you receive one. Each of the sides samples the CPU each time they receive a packet in order to calculate the latency. 8.4.4.1 ib_send_lat Synopsys ib_send_lat [-i(b_port) ib_port] [-c(onnection_type) RC\UC\UD] [-m(tu) mtu_size] [s(ize) message_size] [-t(x-depth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-a(ll)] [-V(ersion)] [-C report cycles] [-H report histogram] [-U report unsorted] 8.4.4.2 ib_send_lat Options The table below lists the various flags of the command. Table 32 - ib_send_lat Flags and Options Flag 8.4.5 Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC/UD> Connection type RC/UC/UD (default RC) -s, --size=<size> The size of message to exchange (default 65536) -l, --signal Signal completion on each msg -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -C, --report-cycles Reports times in cpu cycle units (default microseconds) -H, --report-histogram Print out all results (default print summary only) -U, --report-unsorted (implies H) Print out unsorted results (default sorted) -V, --version Displays version number -g, --grh Use GRH with packets (mandatory for RoCE) ib_write_bw ib_write_bw calculates the BW of RDMA write between a pair of machines. One acts as a server and the other as a client. The client RDMA writes to the server memory and calculate the BW by sampling the CPU each time it receive a successfull completion. The test supports features such as Bidirectional, in which they both RDMA write to each other at the same time, change of mtu size, tx size, number of iteration, message size and more. Using the "-a" flag provides results for all message sizes. Mellanox Technologies 96 WinOF VPI for Windows User Manual Rev 4.40 8.4.5.1 ib_write_bw Synopsys ib_write_bw [-q num of qps] [-c(onnection_type) RC\UC] [-i(b_port) ib_port] [-m(tu) mtu_size] [-s(ize) message_size] [-t(x-depth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-b(idirectional)] [-a(ll)] [-V(ersion)] 8.4.5.2 ib_write_bw Options The table below lists the various flags of the command. Table 33 - ib_write_bw Flags and Options Flag 8.4.6 Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC> Connection type RC/UC (default RC) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -b, --bidirectional Measures bidirectional bandwidth (default unidirectional) -V, --version Displays version number -o, --post=<num of posts> The number of posts for each qp in the chain (default tx_depth) -q, --qp=<num of qp's> The number of qp's(default 1) -g, --grh Use GRH with packets (mandatory for RoCE) ib_write_lat ib_write_lat calculates the latency of RDMA write operation of message_sizeB between a pair of machines. One acts as a server and the other as a client. They perform a ping pong benchmark on which one side RDMA writes to the other side memory only after the other side wrote on his memory. Each of the sides samples the CPU clock each time they write to the other side memory, in order to calculate latency. Mellanox Technologies 97 WinOF VPI for Windows User Manual Rev 4.40 8.4.6.1 ib_write_lat Synopsys ib_write_lat [-i(b_port) ib_port] [-c(onnection_type) RC\UC] [-m(tu) mtu_size] [s(ize) message_size] [-t(x-depth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-a(ll)] [-V(ersion)] [-C report cycles] [-H report histogram] [-U report unsorted] 8.4.6.2 ib_write_lat Options The table below lists the various flags of the command. Table 34 - ib_write_lat Flags and Options Flag 8.4.7 Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC> Connection type RC/UC (default RC) -s, --size=<size> The size of message to exchange (default 65536) -f, --freq=<dep> How often the time stamp is taken -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -C, --report-cycles Reports times in cpu cycle units (default microseconds) -H, --report-histogram Prints out all results (default print summary only) -U, --report-unsorted (implies H) Prints out unsorted results (default sorted) -V, --version Displays version number -g, --grh Uses GRH with packets (mandatory for RoCE) ibv_read_bw This is a more advanced version of ib_read_bw and contains more flags and features than the older version and also improved algorithms. ibv_read_bw calculates the BW of RDMA read between a pair of machines. One acts as a server, and the other as a client. The client RDMA reads the server memory and calculate the BW by sampling the CPU each time it receive a successfull completion. The test supports a large variety of features as described below, and has better performance than ib_send_bw in Nahelem systems. Read is availible only in RC connection mode (as specified in the InfiniBand spec). Mellanox Technologies 98 WinOF VPI for Windows User Manual Rev 4.40 8.4.7.1 ibv_read_bw Synopsys ibv_read_bw [-i(b_port) ib_port] [-d ib device] [-o(uts) outstanding reads] [-m(tu) mtu_size] [-s(ize) message_size] [-t(x-depth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-u qp timeout] [-S(l) sl type] [-x gid index] [-e(vents) use events] [-F CPU freq fail] [-b(idirectional)] [-a(ll)] [-V(ersion)] 8.4.7.2 ibv_read_bw Options The table below lists the various flags of the command. Table 35 - ibv_read_bw Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -o, --outs=<num> The number of outstanding read/atom(default for hermon 16 (others 4) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -u, --qp-timeout=<timeout> QP timeout. The timeout value is 4 usec * 2 ^(timeout), default 14 -S, --sl=<sl> The service level (default 0) -x, --gid-index=<index> Test uses GID with GID index taken from command line (for RDMAoE index should be 0) -b, --bidirectional Measures bidirectional bandwidth (default unidirectional) -V, --version Displays version number -g, --post=<num of posts> The number of posts for each qp in the chain (default tx_depth) -e, --events Inactive during CQ events (default poll) -F, --CPU-freq The CPU frequency test. It is active even if the cpufreq_ondemand module is loaded -R, --rdma_cm Connect QPs with rdma_cm and run test on those QPs -z, --com_rdma_cm Communicate with rdma_cm module to exchange data - use regular QPs -c, --connection=<RC/UC> Connection type RC/UC (default RC) -I, --inline_size=<size> Max size of message to be sent in inline (default 0) Mellanox Technologies 99 WinOF VPI for Windows User Manual Rev 4.40 Table 35 - ibv_read_bw Flags and Options Flag 8.4.8 Description -Q, --cq-mod Generate Cqe only after <--cq-mod> completion -N, --no peak-bw Cancel peak-bw calculation (default with peak) ibv_read_lat This is a more advanced version of ib_read_lat ,and contains more flags and featurs than the older version and also improved algorithms. ibv_read_lat calculats the latency of RDMA read operation of message_sizeB between a pair of machines. One acts as a server and the other as a client. They perform a ping pong benchmark on which one side RDMA reads the memory of the other side only after the other side have read his memory. Each of the sides samples the CPU clock each time they read the other side memory, to calculate latency. Read is availible only in RC connection mode (as specified in InfiniBand spec). 8.4.8.1 ibv_read_lat Synopsys ibv_read_lat [-i(b_port) ib_port] [-m(tu) mtu_size] [-s(ize) message_size] [-t(xdepth) tx_size] [-I(nline_size) inline size] [-u qp timeout] [-S(L) sl type] [-d ib_device name] [-x gid index] [-n iteration_num] [-o(uts) outstanding reads] [-e(vents) use events] [p(ort) PDT_port] [-a(ll)] [-V(ersion)] [-C report cycles] [-H report histogram] [-U report unsorted] [-F CPU freq fail] 8.4.8.2 ibv_read_lat Options The table below lists the various flags of the command. Table 36 - ibv_read_lat Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -o, --outs=<num> The number of outstanding read/atom(default for hermon 16 (others 4) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -u, --qp-timeout=<timeout> QP timeout. The timeout value is 4 usec * 2 ^(timeout), default 14 -S, --sl=<sl> The service level (default 0) Mellanox Technologies 100 WinOF VPI for Windows User Manual Rev 4.40 Table 36 - ibv_read_lat Flags and Options Flag 8.4.9 Description -x, --gid-index=<index> Test uses GID with GID index taken from command line (for RDMAoE index should be 0) -C, --report-cycles Reports times in cpu cycle units (default microseconds) -H, --report-histogram Prints out all results (default print summary only) -U, --report-unsorted (implies H) Prints out unsorted results (default sorted) -V, --version Displays version number -e, --events Inactive during CQ events (default poll) -F, --CPU-freq The CPU frequency test. It is active even if the cpufreq_ondemand module is loaded -R, --rdma_cm Connects QPs with rdma_cm and run test on those QPs -z, --com_rdma_cm Communicates with rdma_cm module to exchange data - use regular QPs -c, --connection=<RC/UC> Connection type RC/UC (default RC) -I, --inline_size=<size> Max size of message to be sent in inline (default 400) ibv_send_bw This is a more advanced version of ib_send_bw and contains more flags and featurs than the older version and also improved algorithms. ibv_send_bw calculats the BW of SEND between a pair of machines. One acts as a server and the other as a client. The server receive packets from the client and they both calculate the throughput of the operation.The test supports a large variety of features as described below, and has better performance than ib_send_bw in Nahelem systems. 8.4.9.1 ibv_send_bw Synopsys ibv_send_bw [-i(b_port) ib_port] [-d ib device] [-c(onnection_type) RC\UC\UD] [m(tu) mtu_size] [-s(ize) message_size] [-t(x-depth) tx_size] [-r(x_dpeth) rx_size] [-n iteration_num] [-p(ort) PDT_port] [-I(nline_size) inline size] [-u qp timeout] [-S(l) sl type] [-x gid index] [-e(vents) use events] [N(o_peak) use peak calc] [-F CPU freq fail] [-g num of qps in mcast group] [-M mcast gid] [-b(idirectional)] [-a(ll)] [-V(ersion)] 8.4.9.2 ibv_send_bw Options The table below lists the various flags of the command. Table 37 - ibv_send_bw Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) Mellanox Technologies 101 WinOF VPI for Windows User Manual Rev 4.40 Table 37 - ibv_send_bw Flags and Options Flag Description -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC/UD> Connection type RC/UC/UD (default RC) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -u, --qp-timeout=<timeout> QP timeout. The timeout value is 4 usec * 2 ^(timeout), default 14 -S, --sl=<sl> The service level (default 0) -x, --gid-index=<index> Test uses GID with GID index taken from command line (for RDMAoE index should be 0) -b, --bidirectional Measures bidirectional bandwidth (default unidirectional) -V, --version Displays version number -g, --post=<num of posts> The number of posts for each qp in the chain (default tx_depth) -e, --events Inactive during CQ events (default poll) -F, --CPU-freq The CPU frequency test. It is active even if the cpufreq_ondemand module is loaded -r, --rx-depth=<dep> Makes rx queue bigger than tx (default 600) -I, --inline_size=<size> The maximum size of message to be sent in “inline mode” (default 0) -N, --no peak-bw Cancels peak-bw calculation (default with peak-bw) -g, --mcg=<num_of_qps> Sends messages to multicast group with <num_of_qps> qps attached to it. -M, --MGID=<multicast_gid> In case of multicast, uses <multicast_gid> as the group MGID. The format must be '255:1:X:X:X:X:X:X:X:X:X:X:X:X:X:X', where X is a vlaue within [0,255] -R, --rdma_cm Connects QPs with rdma_cm and run test on those QPs -z, --com_rdma_cm Communicates with rdma_cm module to exchange data - use regular QPs -Q, --cq-mod Generates Cqe only after <--cq-mod> completion 8.4.10 ibv_send_lat This is a more advanced version of ib_send_lat and contains more flags and featurs than the older version and also improved algorithms. ibv_send_lat calculates the latency of sending a packet in message_sizeB between a pair of machines. One acts as a server and the other as a client. They Mellanox Technologies 102 WinOF VPI for Windows User Manual Rev 4.40 perform a ping pong benchmark on which you send packet only after you receive one. Each of the sides samples the CPU clock each time they receive a send packet, in order to calculate the latency. 8.4.10.1 ibv_send_lat Synopsys ibv_send_lat [-i(b_port) ib_port] [-c(onnection_type) RC\UC\UD] [-d ib_device name] [-m(tu) mtu_size] [-s(ize) message_size] [-t(x-depth) tx_size] [I(nline_size) inline size] [-u qp timeout] [-S(L) sl type] [-x gid index] [-e(events) use events] [-n iteration_num] [-g num of qps in mcast group] [-p(ort) PDT_port] [-a(ll)] [-V(ersion)] [-C report cycles] [-H report histogram] [-U report unsorted] [-F CPU freq fail] 8.4.10.2 ibv_send_lat Options The table below lists the various flags of the command. Table 38 - ibv_send_lat Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC/UD> Connection type RC/UC/UD (default RC) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -u, --qp-timeout=<timeout> QP timeout. The timeout value is 4 usec * 2 ^(timeout), default 14 -S, --sl=<sl> The service level (default 0) -x, --gid-index=<index> Test uses GID with GID index taken from command line (for RDMAoE index should be 0) -C, --report-cycles Reports times in cpu cycle units (default microseconds) -H, --report-histogram Print out all results (default print summary only) -U, --report-unsorted (implies H) Print out unsorted results (default sorted) -V, --version Displays version number -F, --CPU-freq The CPU frequency test. It is active even if the cpufreq_ondemand module is loaded Mellanox Technologies 103 WinOF VPI for Windows User Manual Rev 4.40 Table 38 - ibv_send_lat Flags and Options Flag Description -g, --post=<num of posts> The number of posts for each qp in the chain (default tx_depth) -I, --inline_size=<size> The maximum size of message to be sent in “inline mode” (default 0) -e, --events Inactive during CQ events (default poll) -g, --mcg=<num_of_qps> Sends messages to multicast group with <num_of_qps> qps attached to it. -M, --MGID=<multicast_gid> In case of multicast, uses <multicast_gid> as the group MGID. The format must be '255:1:X:X:X:X:X:X:X:X:X:X:X:X:X:X', where X is a vlaue within [0,255]. You must specify a different MGID on both sides to avoid loopback. -R, --rdma_cm Connect QPs with rdma_cm and run test on those QPs -z, --com_rdma_cm Communicate with rdma_cm module to exchange data - use regular QPs 8.4.11 ibv_write_bw This is a more advanced version of ib_write_bw ,and contains more flags and features than the older version and also improved algorithms. ibv_write_bw calculates the BW of RDMA write between a pair of machines. One acts as a server and the other as a client. The client RDMA writes to the server memory and calculate the BW by sampling the CPU each time it receives a successful completion. The test supports a large variety of features as described below, and has better performance than ib_send_bw in Nahelem systems. 8.4.11.1 ibv_write_bw Synopsys ibv_write_bw [-i(b_port) ib_port] [-d ib device] [-c(onnection_type) RC\UC] [-m(tu) mtu_size] [-s(ize) message_size] [-t(x-depth) tx_size] [-n iteration_num] [-p(ort) PDT_port] [-I(nline_size) inline size] [-u qp timeout] [-S(l) sl type] [-x gid index] [-e(vents) use events] [-N(o_peak) use peak calc] [-F CPU freq fail] [-g num of posts] [-q num of qps] [-b(idirectional)] [-a(ll)] [-V(ersion)] 8.4.11.2 ibv_write_bw Options The table below lists the various flags of the command. Table 39 - ibv_write_bw Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) Mellanox Technologies 104 WinOF VPI for Windows User Manual Rev 4.40 Table 39 - ibv_write_bw Flags and Options Flag Description -c, --connection=<RC/UC> Connection type RC/UC(default RC) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -u, --qp-timeout=<timeout> QP timeout. The timeout value is 4 usec * 2 ^(timeout), default 14 -S, --sl=<sl> The service level (default 0) -x, --gid-index=<index> Test uses GID with GID index taken from command line (for RDMAoE index should be 0) -b, --bidirectional Measures bidirectional bandwidth (default unidirectional) -V, --version Displays version number -g, --post=<num of posts> The number of posts for each qp in the chain (default tx_depth) -F, --CPU-freq The CPU frequency test. It is active even if the cpufreq_ondemand module is loaded -q, --qp=<num of qp's> The number of qp's (default 1) -I, --inline_size=<size> The maximum size of message to be sent in “inline mode” (default 0) -N, --no peak-bw Cancels peak-bw calculation (default with peak-bw) -R, --rdma_cm Connect QPs with rdma_cm and run test on those QPs -z, --com_rdma_cm Communicate with rdma_cm module to exchange data - use regular QPs -Q, --cq-mod Generate Cqe only after <--cq-mod> completion 8.4.12 ibv_write_lat This is a more advanced version of ib_write_lat and contains more flags and featurs than the older version and also improved algorithms. ibv_write_lat calculates the latency of RDMA write operation of message_sizeB between a pair of machines. One acts as a server, and the other as a client. They perform a ping pong benchmark on which one side RDMA writes to the other side memory only after the other side wrote on his memory. Each of the sides samples the CPU clock each time they write to the other side memory to calculate latency. Mellanox Technologies 105 WinOF VPI for Windows User Manual Rev 4.40 8.4.12.1 ibv_write_lat Synopsis ibv_write_lat [-i(b_port) ib_port] [-c(onnection_type) RC\UC\UD][-m(tu) mtu_size] [-s(ize) message_size] [-t(x-depth) tx_size] [-I(nline_size) inline size] [-u qp timeout] [-S(L) sl type] [-d ib_device name] [-x gid index] [-n iteration_num] [-p(ort) PDT_port] [-a(ll)] [-V(ersion)] [-C report cycles] [-H report histogram] [-U report unsorted] 8.4.12.2 ibv_write_lat Options The table below lists the various flags of the command. Table 40 - ibv_write_lat Flags and Options Flag Description -p, --port=<port> Listens on/connect to port <port> (default 18515) -d, --ib-dev=<dev> Uses IB device <device guid> (default first device found) -i, --ib-port=<port> Uses port <port> of IB device (default 1) -m, --mtu=<mtu> The mtu size (default 1024) -c, --connection=<RC/UC> Connection type RC/UC (default RC) -s, --size=<size> The size of message to exchange (default 65536) -a, --all Runs sizes from 2 till 2^23 -t, --tx-depth=<dep> The size of tx queue (default 100) -n, --iters=<iters> The number of exchanges (at least 2, default 1000) -u, --qp-timeout=<timeout> QP timeout. The timeout value is 4 usec * 2 ^(timeout), default 14 -S, --sl=<sl> The service level (default 0) -x, --gid-index=<index> Test uses GID with GID index taken from command line (for RDMAoE index should be 0) -C, --report-cycles Reports times in cpu cycle units (default microseconds) -H, --report-histogram Print out all results (default print summary only) -U, --report-unsorted (implies H) Print out unsorted results (default sorted) -V, --version Displays version number -F, --CPU-freq The CPU frequency test. It is active even if the cpufreq_ondemand module is loaded -I, --inline_size=<size> The maximum size of message to be sent in “inline mode” (default 0) -R, --rdma_cm Connects QPs with rdma_cm and run test on those QPs -z, --com_rdma_cm Communicates with rdma_cm module to exchange data - use regular QPs Mellanox Technologies 106 WinOF VPI for Windows User Manual Rev 4.40 8.4.13 nd_write_bw This test is used for performance measuring of RDMA-Write requests in Microsoft Windows Operating Systems. nd_write_bw is performance oriented for RDMA-Write with maximum throughput, and runs over Microsoft's NetworkDirect standard. The level of customizing for the user is relatively high. User may choose to run with a customized message size, customized number of iterations, or alternatively, customized test duration time. nd_write_bw runs with all message sizes from 1B to 4MB (powers of 2), message inlining, CQ moderation. 8.4.13.1 nd_write_bw Synopsys <running on specific single core> Server side: start /b /affinity 0X1 nd_write_bw -s1048576 -D10 -S11.137.53.1 Client side: start /b /wait /affinity 0X1 nd_write_bw -s1048576 -D10 -C 11.137.53.1 8.4.13.2 nd_write_bw Options The table below lists the various flags of the command. Table 41 - nd_write_bw Flags and Options Flag Description -h Shows the Help screen. -v Shows the version number. -p Connects to the port <port> <default 6830>. -s <msg size> Exchanges the message size with <default 65536B>, and it must not be combined with -a flag. -a Runs all the messages’ sizes from 1B to 8MB, and it must not be combined with -s flag. -n <num of iterations> The number of exchanges (at least 2, the default is 100000) -I <max inline size> The maximum size of message to send inline. The default number is 128B. -D <test duration in seconds> Tests duration in seconds. -f <margin time in seconds> The margin time to avoid calculation, and it must be less than half of the duration time. -Q CQ-Moderation <value>. The default number is 100. -S <server interface IP> <server side only, must be last parameter> -C <server interface IP> <client side only, must be last parameter> 8.4.14 nd_write_lat This test is used for performance measuring of RDMA-Write requests in Microsoft Windows Operating Systems. nd_write_lat is performance oriented for RDMA-Write with minimum Mellanox Technologies 107 WinOF VPI for Windows User Manual Rev 4.40 latency, and runs over Microsoft's NetworkDirect standard. The level of customizing for the user is relatively high. User may choose to run with a customized message size, customized number of iterations, or alternatively, customized test duration time. nd_write_lat runs with all message sizes from 1B to 4MB (powers of 2), message inlining, CQ moderation. 8.4.14.1 nd_write_lat Synopsys <running on specific single core> Server side: start /b /affinity 0X1 nd_write_lat -s1048576 -D10 -S11.137.53.1 Client side: start /b /wait /affinity 0X1 nd_write_lat -s1048576 -D10 -C 11.137.53.1 8.4.14.2 nd_write_lat Options The table below lists the various flags of the command. Table 42 - nd_write_lat Options Flag Description -h Shows the Help screen. -v Shows the version number. -p Connects to the port <port> <default 6830>. -s <msg size> Exchanges the message size with <default 65536B>, and it must not be combined with -a flag. -a Runs all the messages’ sizes from 1B to 8MB, and it must not be combined with -s flag. -n <num of iterations> The number of exchanges (at least 2, the default is 100000) -I <max inline size> The maximum size of message to send inline. The default number is 128B. -D <test duration in seconds> Tests duration in seconds. -f <margin time in seconds> The margin time to avoid calculation, and it must be less than half of the duration time. -S <server interface IP> <server side only, must be last parameter> -C <server interface IP> <client side only, must be last parameter> -h Shows the Help screen. 8.4.15 nd_read_bw This test is used for performance measuring of RDMA-Read requests in Microsoft Windows Operating Systems. nd_read_bw is performance oriented for RDMA-Read with maximum throughput, and runs over Microsoft's NetworkDirect standard. The level of customizing for the user is relatively high. User may choose to run with a customized message size, customized number of iterations, or alternatively, customized test duration time. nd_read_bw runs with all message sizes from 1B to 4MB (powers of 2), message inlining, CQ moderation. Mellanox Technologies 108 WinOF VPI for Windows User Manual Rev 4.40 8.4.15.1 nd_read_bw Synopsys <running on specific single core> Server side: start /b /affinity 0X1 nd_read_bw -s1048576 -D10 -S11.137.53.1 Client side: start /b /wait /affinity 0X1 nd_read_bw -s1048576 -D10 -C 11.137.53.1 8.4.15.2 nd_read_bw Options The table below lists the various flags of the command. Table 43 - nd_read_bw Options Flags Description -h Shows the Help screen. -v Shows the version number. -p Connects to the port <port> <default 6830>. -s <msg size> Exchanges the message size with <default 65536B>, and it must not be combined with -a flag. -a Runs all the messages’ sizes from 1B to 8MB, and it must not be combined with -s flag. -n <num of iterations> The number of exchanges (at least 2, the default is 100000) -I <max inline size> The maximum size of message to send inline. The default number is 128B. -D <test duration in seconds> Tests duration in seconds. -f <margin time in seconds> The margin time to avoid calculation, and it must be less than half of the duration time. -Q CQ-Moderation <value>. The default number is 100. -S <server interface IP> <server side only, must be last parameter> -C <server interface IP> <client side only, must be last parameter> -h Shows the Help screen. 8.4.16 nd_read_lat This test is used for performance measuring of RDMA-Read requests in Microsoft Windows Operating Systems. nd_read_lat is performance oriented for RDMA-Read with minimum latency, and runs over Microsoft's NetworkDirect standard. The level of customizing for the user is relatively high. User may choose to run with a customized message size, customized number of iterations, or alternatively, customized test duration time. nd_read_lat runs with all message sizes from 1B to 4MB (powers of 2), message inlining, CQ moderation. Mellanox Technologies 109 WinOF VPI for Windows User Manual Rev 4.40 8.4.16.1 nd_read_lat Synopsys <running on specific single core> Server side: start /b /affinity 0X1 nd_read_lat -s1048576 -D10 -S11.137.53.1 Client side: start /b /wait /affinity 0X1 nd_read_lat -s1048576 -D10 -C 11.137.53.1 8.4.16.2 nd_read_lat Options The table below lists the various flags of the command. Table 44 - nd_read_lat Options Flags Description -h Shows the Help screen. -v Shows the version number. -p Connects to the port <port> <default 6830>. -s <msg size> Exchanges the message size with <default 65536B>, and it must not be combined with -a flag. -a Runs all the messages’ sizes from 1B to 8MB, and it must not be combined with -s flag. -n <num of iterations> The number of exchanges (at least 2, the default is 100000) -I <max inline size> The maximum size of message to send inline. The default number is 128B. -D <test duration in seconds> Tests duration in seconds. -f <margin time in seconds> The margin time to avoid calculation, and it must be less than half of the duration time. -S <server interface IP> <server side only, must be last parameter> -C <server interface IP> <client side only, must be last parameter> -h Shows the Help screen. 8.4.17 NTttcp NTttcp is a Windows base testing application that sends and receives TCP data between two or more endpoints. It’s a Winsock-based port of the ttcp tool that measures networking performance bytes/second. To download the latest version of NTttcp (5.28), please refer to Microsoft website following the link below: http://gallery.technet.microsoft.com/NTttcp-Version-528-Now-f8b12769 Mellanox Technologies 110 WinOF VPI for Windows User Manual Rev 4.40 8.4.17.1 NTttcp Synopsys Server: ntttcp_x64.exe -r -t 15 -m 16,*,<interface IP> Client: ntttcp_x64.exe -s -t 15 -m 16,*,<same address as above> 8.4.17.2 NTttcp Options The table below lists the various flags of the command. Table 45 - NTttcp Options Flags Description -s Works as a sender -r Works as a receiver -l <Length of buffer> [default TCP: 64K, UDP: 128] -n <Number of buffers> [default: 20K] -p <port base> [default: 5001] -sp Synchronizes data ports, if used -p should be same on every instance -a <outstanding I/O> [default: 2] -x <PacketArray size> [default: 1] -rb <Receive buffer size> [default: 64K] -sb <Send buffer size>[default: 8K] -u UDP send/recv -w WSARecv/WSASend -d Verifies Flag -t <Runtime> in seconds. -cd <Cool-down> in seconds -wu <Warm-up> in seconds -nic <NIC IP> Use NIC with for sendingdata (sender only). -m <mapping> [mapping] Mellanox Technologies 111 WinOF VPI for Windows User Manual 9 Rev 4.40 Software Development Kit Software Development Kit (SDK) a set of development tools that allows the creation of InfiniBand applications for MLNX_VPI software package. The SDK package contains, header files, libraries, and code examples. To open the SDK package you must run the sdk.exe file and get the complete list of files. SDK package can be found under <installation_directory>\IB\SDK Mellanox Technologies 114 WinOF VPI for Windows User Manual 10 Troubleshooting 10.1 InfiniBand Troubleshooting Issue 1. Rev 4.40 The InfiniBand interfaces are not up after the first reboot after the installation process is completed. Suggestion: To troubleshoot this issue, follow the steps below: 1. Check that the InfiniBand driver is running on all nodes by using “vstat”. The vstat utility located at <installation_directory>\tools, displays the status and capabilities of the network adaptor card(s). 2. On the command line, enter “vstat” (use -h for options) to retrieve information about one or more adapter ports. The field port_state will be equal to: • PORT_DOWN - when there is no InfiniBand cable ("no link"); • PORT_INITIALIZED - when the port is connected to some other port ("physical link"); • PORT_ACTIVE - when the port is connected and OpenSM is running ("logical link") • PORT_ARMED - when the port is connected to some other port ("physical link"); 3. Run “sminfo” and verify that OpenSM is running. In case OpenSM is not running, please see OpenSM operation instructions in Section 7, “OpenSM - Subnet Manager”, on page 52 above. 4. Verify the status of ports by using vstat: All connected ports should report "PORT_ACTIVE" state. 10.2 Ethernet Troubleshooting Issue 1. The installation of Win OFED VPI for Windows fails with the following (or a similar) error message: This installation package is not supported by this processor type. Contact your product vendor." Suggestion: This message is printed if you have downloaded and attempted to install an incorrect driver version-- for example, if you are trying to install a 64-bit driver on a 32-bit machine (or vice versa). Issue 2. The performance is low. Suggestion: This can be due to non-optimal system configuration. See the section "Performance Tuning" to take advantage of Mellanox 40/10 GBit NIC performance. Issue 3. The driver does not start. Suggestion 1: This can happen due to an RSS configuration mismatch between the TCP stack and the Mellanox adapter. To confirm this scenario, open the event log and look under "System" for the "mlx4eth5" or "mlx4eth6" source. If found, enable RSS as follows: 1. Run the following command: "netsh int tcp set global rss = enabled". Suggestion 2: This is a less recommended suggestion, and will cause low performance. To disable RSS on the adapter, run the following command: "netsh int tcp set global rss = no dynamic balancing". Issue 4. The Ethernet driver fails to start. In the Event log, under the mlx4_bus source, the following error message appears: RUN_FW command failed with error -22 Mellanox Technologies 115 WinOF VPI for Windows User Manual Rev 4.40 Suggestion: The error message indicates that the wrong firmware image has been programmed on the adapter card. See Section 2,“Firmware Upgrade,” on page 13. Issue 5. The Ethernet driver fails to start. A yellow sign appears near the "Mellanox ConnectX 10Gb Ethernet Adapter" in the Device Manager display. Suggestion: This can happen due to a hardware error. Try to disable and re-enable "Mellanox ConnectX Adapter" from the Device Manager display. Issue 6. No connectivity to a Fault Tolerance bundle while using network capture tools (e.g., Wireshark). Suggestion: This can happen if the network capture tool captures the network traffic of the non-active adapter in the bundle. This is not allowed since the tool sets the packet filter to "promiscuous", thus causing traffic to be transferred on multiple interfaces. Close the network capture tool on the physical adapter card, and set it on the LBFO interface instead. Issue 7. No Ethernet connectivity on 1Gb/100Mb adapters after activating Performance Tuning (part of the installation). Suggestion: This can happen due to adding a TcpWindowSize registry value. To resolve this issue, remove the value key under HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\Tcpip\Parameters\TcpWindowSize or set its value to 0xFFFF. Issue 8. Packets are being lost. Suggestion: This may occur if the port MTU has been set to a value higher than the maximum MTU supported by the switch. Issue 9. Issue(s) not listed above. The MLNX_EN for Windows driver records events in the system log of the Windows event system. Using the event log you'll be able to identify, diagnose, and predict sources of system problems. Suggestion: To see the log of events, open System Event Viewer as follows: 1. Right click on My Computer, click Manage, and then click Event Viewer. OR 1. Click start-->Run and enter "eventvwr.exe". 2. In Event Viewer, select the system log. The following events are recorded: • Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> has been successfully initialized and enabled. • Failed to initialize Mellanox ConnectX EN 10Gbit Ethernet Adapter. • Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> has been successfully initialized and enabled. The port's network address is <MAC Address> • The Mellanox ConnectX EN 10Gbit Ethernet was reset. • Failed to reset the Mellanox ConnectX EN 10Gbit Ethernet NIC. Try disabling then re-enabling the "Mellanox Ethernet Bus Driver" device via the Windows device manager. • Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> has been successfully stopped. • Failed to initialize the Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> because it uses old firmware version (<old firmware version>). You need to burn firmware version <new firmware version> or higher, and to restart your computer. Mellanox Technologies 116 WinOF VPI for Windows User Manual 10.3 Rev 4.40 • Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> device detected that the link connected to port <Y> is up, and has initiated normal operation. • Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> device detected that the link connected to port <Y> is down. This can occur if the physical link is disconnected or damaged, or if the other end-port is down. • Mismatch in the configurations between the two ports may affect the performance. When Using MSI-X, both ports should use the same RSS mode. To fix the problem, configure the RSS mode of both ports to be the same in the driver GUI. • Mellanox ConnectX EN 10Gbit Ethernet Adapter <X> device failed to create enough MSI-X vectors. The Network interface will not use MSI-X interrupts. This may affects the performance. To fix the problem, configure the number of MSI-X vectors in the registry to be at least <Y>. Performance Troubleshooting Issue 1. Windows Settings Suggestion 1: In Windows 2012, when a kernel debugger is configured (not necessarily physically connected), flow control is disabled unless the following registry key is set (reboot required after setting): Registry Path: HKLM\SYSTEM\CurrentControlSet\Services\NDIS\Parameters Type: REG_DWORD Key name: AllowFlowControlUnderDebugger Value: 1 Suggestion 2: Go to "Power Options" in the "Control Panel". Make sure "Maximum Performance" is set as the power scheme, reboot is needed. Issue 2. General Diagnostic Suggestion 1: Go to "Device Manager", locate the Mellanox adapter that you are debugging, right-click and go to "Information": • PCI Gen 2: should appear as "PCI-E 5.0 Gbps x8" • PCI Gen 3: should appear as "PCI-E 8.0 Gbps x8" • Link Speed: 40.0Gbps/10.0Gbps Suggestion 2: To determine if the Mellanox NIC and PCI bus can achieve their maximum speed, it's best to run ib_send_bw in a loopback. On the same machine: 1. Run "start /b /affinity 0x1 ibv_write_bw" 2. Run "start /b /affinity 0x2 ibv_write_bw 127.0.0.1" 3. Repeat for port 2 with additional -p2, and for other cards if necessary. 4. On PCI Gen3 the expected result is around 5700MB/s On PCI Gen2 the expected result is around 3300MB/s Any number lower than that points to bad configuration or installation on the wrong PCI slot. Malfunctioning QoS settings and Flow Control can be the cause as well. Suggestion 3: To determine the maximum speed between the two sides with the most basic test: 1. Run "ib_send_bw" on machine 1 2. Run "ib_send_bw <host1>" on machine 2 where <host1> is the hostname for machine 1. Mellanox Technologies 117 WinOF VPI for Windows User Manual Rev 4.40 3. Results appear in MB/s (Mega Bytes 2^20), and reflect the actual data that was transferred, excluding headers. 4. If these results are not as expected, the problem is most probably with one or more of the following: Issue 3. • Old Firmware version. • Misconfigured Flow-control: Global pause or PFC is configured wrong on the hosts, routers andswitches. See Section 3.6,“RDMA over Converged Ethernet (RoCE),” on page 26 • CPU/power options are not set to "Maximum Performance". QoS and Flow-control Flow control settings can greatly affect results. In order to see configured settings for all of the QoS options, open a PowerShell prompt and use "Get-NetAdapterQos" To achieve maximum performance all of the following must exist: 1. All of the hosts, switches and routers should use the same matching flow control settings. If Global-pause is used, all devices must be configured for it. If PFC (Priority Flow-control) is used all devices must have matching settings for all priorities. 2. ETS settings that limit speed of some priorities will greatly affect the output results. 3. Make sure Flow-Control is enabled on the Mellanox Interfaces (enabled by default). Go to the device manager, right click the Mellanox interface go to "Advanced" and make sure Flow-control is enabled for both TX and RX. 4. To eliminate QoS and Flow-control as the performance degrading factor, set all devices to run with Global Pause and rerun the tests: • Set Global pause on the switches, routers. • Run "Disable-NetAdapterQos *" on all of the hosts in a PowerShell window. Mellanox Technologies 118 WinOF VPI for Windows User Manual 11 Rev 4.40 Documentation • Under <installation_directory>\Documentation: • License file • User Manual (this document) • MLNX_VPI_WinOF Installation Guide • MLNX_VPI_WinOF Release Notes • MLNX_VPI_WinOF Registry Keys Mellanox Technologies 119